1. In all cases, you need to burn the chemical energy required to reach the kinetic energy level of your intended cruise speed. Right off the start, it doesn't matter much if you derate 2. If you derate from peak power to peak efficieny, you will save some gas as the friction losses inside the engine are lower for a few seconds. You will often be a nuissence to traffic though. 3. Your average speed may decrease, but then it's more efficient to reach the same avergage speed with a lower cruise setting and a quick acceleration. That said, in order to drive fuel efficient: - lower your cruise speed (especially on roads where it is easy to pass) - don't use the friction brakes, retain as much kinetic energy as possible when maneuvering (- don't open the windows as it will induce drag) (- turn off unneccessary subsystems in your car) (- don't load stuff in your car you don't need) (- turn off the engine when you don't need it) If you want to modify stuff: - go for energy efficient tires (you have a conflict of goals as these offer less traction) - inflate your tires to the high end - use low viscosity motor oil, but it has to be approved by the car manufacturer for your climate If you buy a car, go for a long one if you need space. The more surface area you put against the wind, the more your fuel burn will be.
-use the bus -walk -cycle -carpool No improvement in fuel economy can beat these alternatives. Obviously, it can't work in all cases, but definitely in most.
Rip out all seats, roof liner, door panels, carpets and insulation, get rid of your AC compressor, power steering, take of all your doors, hood, trunk, and drive at 20 mph.
he need 16 minutes which i can tell you in 1 comment: yes, he have a greater consumption if he accelerates more, BUT he need more time. time is money, not fuel. drive efficient and not as slow as you can. everyone have less time in their life as they think!
When you accelerate very gently, you are spending more of the time at a lower speed and therefore reducing aerodynamic drag losses. Even though you hit the same top speed of 50mph, your average speed is lower with the gentle acceleration. I would like to see a test with different acceleration rates where you stop accelerating at the speed where the car gets its best gas mileage.
Compared to in-engine losses, drag doesn't become a problem until about 50-55mph. V^2 and all that. You'd notice it comparing cruise speeds over long distances, but not in this case.
Apart from this test mixing two variable changes together (throttle position & RPM at which he shifts), the true comparison would be which combination of acceleration and top speed gets you to the goal in the same time (ie, faster acceleration would be combined with a slightly lower top speed).
according to the law of conservation of momentum (force = mass * acceleration) the car's mass remains constant, while the acceleration changes. this means that force is directly proportional to the acceleration. having a larger acceleration will require a greater force, which in turn uses more fuel for the acceleration.
@@totallynotkacper7629 Yeh, but your total momentum change in both cases is identical. As is the total added kinetic energy. The answer lies in the engineering, not the kinematics.
@@totallynotkacper7629 faster acceleration requires a greater force for the duration of the acceleration, but that duration is smaller compared to a slower acceleration, so it should cancel each other out
Great test! As a hardcore hypermiler, I love to see these fuel efficiency testing videos. What I found is that how you accelerate matters much less than what you do after you accelerate, but I have gotten my best tanks by a small margin accelerating at a moderate rate and shifting at around 2000-2500 RPM. At least on gas engines, efficiency tends to be best at a medium-low RPM and a medium-high load. If you would like to see a visual example of this, look at some BSFC charts. Too little load and/or too much RPM and pumping losses and frictional losses make the engine less efficient; too much load and the ECU commands a rich air/fuel ratio and the engine becomes less efficient because unburned fuel is wasted out the exhaust. How you slow down matters much more. Remember that every time you press the brake pedal, you are basically turning your expensive fuel into brake dust and heat. Letting off the gas really early for stop signs, red lights, turns, etc, and leaving a lot of distance in front of you in traffic so very little or preferably no braking is required is where most drivers will see their biggest gains without getting into drastic car mods or more extreme driving techniques like pulse and glide or engine off coasting.
The BSFC varies between engine types, engines with forced induction tend to perform best at lower rpms compared to naturally aspirated ones, and the same goes with 2 valve per cylider cars vs 4 valve. But general rule of thumb (BSFC charts for every engine are hard to come by) is to use RPMs close to peak torque (eg. peak torque is at 3000 so you should use 2500-3500rpm) under generous throttle (but not with pedal to the metal), and as always go straight to highest possible gear when done accelerating. Hypermiling is one of my favourite activities on long trips, but what you said is 100% true - the worst thing that you can do is braking. I'm able to go between 100-150 kilometers without using the brake pedal just by observing the road before me and acting accordingly. There is also the factor of gravity and potential energy, pulse and glide is not the best technique when being in normal traffic, but can do wonders when used correctly on a road with a lot of uphill/downhill combinations.
@@jakubm1187Great points. I wish BSFC charts were published by manufacturers, it would sure make life easier for us hypermilers. I wonder how true the theory that maximum efficiency occurs at peak torque RPM is on higher revving engines. Both of my cars make peak torque at around 5K RPM, but I can't imagine that shifting so late could be most efficient way to accelerate. As for pulse and glide, it certainly has its place. I have found it to be very effective on hilly roads (obviously not on hills so steep you will pick up too much speed on the way down). I have heard of good results using pulse and glide on longer highway trips instead of maintaining a constant speed, which makes sense especially if the top gear is short. With a tall geared transmission that has the engine cruising at barely above idle anyways, I'm sure pulse and glide wouldn't be as beneficial as with shorter gearing since frictional losses and pumping losses would be less anyways.
Interesting. I'm not exactly hypermiling right now (115 kph on highway, 70 average) but for now I can reach huge distances with driving relatively quick that driving behind me becomes no burden. I usually shift at 2200 RPM which is pretty much the middle of what you stated. My 13 year old Ford Mondeo TDCI on average can manage 1300km (or over 800 miles) if I keep doing this.
I love you for putting the results in all different units. I always hate it when I have to open a new tab mid video just to keep track of the mpg -> L/100km ratio
My mother and grandfather both have near-identical cars (same engine, same mileage - 170k), and they both drive similar roads, and yet my grandfather gets about 20% more MPG than my mother. For years I've been saying it's because she's the type of driver to get to the speed limit as fast as possible, then brake at the last possible minute, whereas my grandfather drives 'properly'. Her reason for that driving style is that she was taught to drive right next to the motorway, and we have a load of country roads where you really have to accelerate when you pull out of a junction. I can kinda see that being a valid reason, but there's no need to drive like that everywhere!
I sold my father in law's car. I drove it myself for a week. 1.4 na engine. Checked the BC when I collected it, drove some 500 miles. Result: 72% better mileage.
@@shadmansudipto7287 Yeh, I've observed that. I've also observed octogenarians who are as sharp as they come. A lot of it will come down to how much use that brain sees, and I plan to keep mine as active as I can
I hate it when people stop abruptly past the stop sign or start to speed up before I can even pass the sign. You never know if they are actually going to stop in time & I'm always ready to swerve away from the vehicle if they don't stop but that's not always an option with oncoming traffic.
The tests, the explanation, the info for us and eu drivers, the camera's... this gotta be the most complete youtube video I've seen in a good while. Thanks!
Exactly what I have been debating so far. Why are you always in my head? Jokes aside, thanks for the video! You've been a great resource for my manual transmission journey here in the US.
If the constant speed phase is much larger than the video, the difference becomes negligible, it seems. Since we have a short run on the video, it becomes more pronounced. This was a great video, answering a question that I had myself. Now I know that, at least in urban driving, there's absolutely no reason to get "spirited" while driving, since the constant speed phases are very short, and acceleration/deceleration takes much of the total runtime. On a highway I'll be pleased to accelerate faster to merge, knowing that it won't hurt my MPGs that much.
@@tommik4872 Exactly. As this video shows, the way you accelerate just isn't all that critical when it comes to overall fuel efficiency. If he accelerated then cruised for 10 miles, any differences in efficiency as a result of how he accelerated would never be seen due to normal run to run variance and wouldn't be as conclusive. The way he did this test was perfect IMO since he needed to keep all the tests the same distance while still leaving enough room for the very slow acceleration test.
I drive in bumper to bumper traffic in my 1.5 tsi engine and get a fuel economy of 6-7 kmpl when using fast accelerations and 8-9 kmpl when gently accelerating and braking (over 15-20 kms), so yeah, the difference isnt negligible in bad traffic/ roads
No exaggeration, you are actually doing the nation a service with these videos 👍😂. Teaching people (for FREE!) on how to save money in times like this! Proper quality contentas always👌
Love the video. I would bet that the reason Full throttle and half throttle were that high was because you stayed in 1st for so long. 1st destroys your mileage. In my own tests, the best option between speed/mileage was 1st until 2k then 2nd to 35mph. The goal with 1st was to get into "Turbo range" for second. Also no need to full throttle 1st, it's wasteful. All in all, your results match my experience. Cheers for the dope channel, your manual control is top notch.
I've been driving on an automatic licence for the past 15 years and today I took a test in my grandad's old (S reg!) Manual Renault Mégane... I've had no lessons and my only tuition has been practicing occasionally and watching these videos... I passed with four minors despite having a nightmare in the car park where the examiner announced "you're holding up traffic" - I decided to exit the car park and re enter then proceeded to stall on the monouver!!! - without these vids I'd have either of had a meltdown or continued to reverse where I was forcing the one behind to reverse - you're literally the only reason I passed today... Thank you so much!!!
@@ConquerDriving as a follow up I went onto pass my cat C today (that was the reason I was doing the manual car licence as it'll cover both now) - your videos helped me again today as its all the same really 😀😀😀
I think the big reason for your results is the turbocharge. Most turbocharges have peak torque earlier, in the 1500~2000 range, which means you get more work and power delivered earlier. In an aspirated engine, peak torque is usually reached over the 5000 RPM limit.
Peak torque in my natural 90s aspirated engines is at 4000 and 4400 rpm respectively. In my turbo charged engine it's at 2200 rpm. I believe upshift no later than peak torque is most efficient.
Fantastic adherence to methodology and I love that you worked so hard to control as many variables as you could! I do fear one thing may have been overlooked though: built-in fuel efficiency indicators on vehicles are notoriously inaccurate from vehicle to vehicle - especially over extremely short durations. They rely on pre-ordained formulas built into the ECU logic based on RPM, requested torque which is a fudged guess from the ECU anyways, fuel pressure or manifold pressure, and - this is the kicker: throttle position. While they may work better over long trip durations (error averages out) and certain vehicles may be more accurate than others (Nissan & Hyundai are notoriously bad, whilst Subaru and Mazda seem to be slightly better), you'd be better off testing this either with longer test cycles and direct measurement of fuel before and after, or in a lab. Still, subscribed. I love your dedication to clear and succinct presentation of info!
Yeah, was gonna say similar. I thought he had some sophisticated fuel-dripping rig set up, but instead relying on the car's own built-in computer, which is constantly estimating the future as much as the past. As such it's just spitting out pre-written data. On the bright side, this is data directly from the car maker, on the downside, car makers lie about their product's mileage all the time, so... *shrug It's good to see the actual testing anyway, as there's no reason for the makers to lie about which method works best for fuel economy. I suspect the whole issue is more about weak engines pushed hard, rather than a strong engine working gently, as it's obvious a strong engine will use less fuel when it's not working so hard. My own experience with economy crap-boxes is they use as much fuel as a better car, cos I have to hammer the things much harder to drive like a normal human.
@@bigglyguy8429 the only real truth is going to the pump and seeing how many miles covered. (Although is this this really the truth? You need the same fuel click off point in each pump. Also, just like your speedometer reads a slightly higher speed, does your odometer read slightly shorter miles? I don't know.)
@@TimpBizkit Well I know for the fun of it I've been driving my stage-4 tuned Hilux Vigo turbodiesel off-road beast of a machine more gently... and people keep driving around me and seem to think they're winning a race! Normally I just drive away from traffic. I didn't realize people were so weird..
I was wondering how accurate the fuel consumption figures were at different RPM points. If the fuel consumption figure underreads at lower revs then the results will be skewed towards low acceleration giving the best results. Without knowing how the fuel consumption is worked out this may or may not be a good experiment. I read a news item in the past month that a couple of different sets of experiments found that accelerating at about 66% of maximum acceleration was the best way (wrt lower fuel consumption) to get up to speed quickly and into top gear. This is an example of the usual mixed messaging that can be found on the internet, same question two different answers.
Yeah, there's no way that thing was good enough to do a test like this. There are so many things that could be causing it to report better efficiency when he accelerates slower, and worse efficiency when faster, and in reality it could be the opposite
Great experiment, and I was happy to see the theory play out in practice that low RPM and high load results in good economy. One of the things that irks me about cars with automatic transmissions but without electronic throttle control is that you can't really drive them this way: when you open the throttle it will also prefer a lower gear because it thinks you want more power. Still, I do like the way the CVT in my car generally allows decent acceleration to urban road speeds without the engine speed rising above 1500 RPM.
@@daniel27560 Haha, fair question! My friend was selling it and it was extremely cheap. :) TBH, I remember being curious about CVT drivetrains in high school, purely from a technical perspective, but I'd be the first to admit that they're not very exciting to drive.
I passed my driving test today😁😁been watcing your channel for almost a year now. I will still continue to watch your channel, to become even better at driving : )
Passed my test first time today! Just wanted to say a massive thanks Richard, your videos have helped so much during my learner driver journey and they would make concepts so much more easier to understand when watching before lessons and leading up to the test day. Keep up the brilliant work and all your effort in videos is very much appreciated :)
I think for the slowing down part, the efficiency not comes with decelerating slowly, instead cutting throttle early. As long as you let the throttle off, it should change a lot if you're slowing down quickly or not. Lift and coast is the key.
The theoretical numbers behind engine efficiency is in BSFC (Brake Specific Fuel Consumption). It's basically a 3D plot of engine RPM (X-axis) vs throttle position or torque (Y-axis), and on the "Z-axis" is the amount of fuel needed to generate a certain amount of energy (kWh or MJ). Less fuel is obviously better. For many engines, this is somewhere within the peak torque band at a decent -but not quite full- throttle load. Now I don't think many people would use "exactly 80%" throttle to get their best fuel economy, so it's not really realistic way of driving (unless manufacturers would make 80% the new 100% lol). But it is entirely true that petrol/diesel engines only get "more efficient" at higher speeds. The better fuel economy is just in the speed and losses involved..
A lot of manufacturers actually put an efficiency ‘bump’ in their accelerator pedals nowadays where it feels like it stops at about 80%, but you can push past it to 100%. Not sure if it’s a Renault/Nissan thing but my work van has it & it seems like a really good idea.
Fuel burned accelerating is justified, but economy in my opinion comes from stopping. When you accelerate you convert liquid dinosaurs into kinetic energy, so economy depends on how you use that kinetic energy. While stopping you can let it dissipate in justified air, rolling, engine resistance and so on, or your dissipate it in your brakes.. I would like to see the test where you reset computer at 50 mph, drive for a while and make an emergency stop at defined spot. Then try resetting, coasting to 20 mph then apply brakes to stop at the same spot. And third run try downshifting and braking with engine till 20 mph and then apply brakes. Most efficient will be downshifting. This driving style could be harder to master in real life conditions, but I get manufacturers claimed range on all cars I ever have driven. Thanks for the great video! 👍👍
Something that genuinely works especially on older cars is to drive very conservatively on a daily basis with an occasional thrash to help clean out the engines carbon. My old VR5 bora was averaging 28mpg and after a 4 hour hard thrash on a day out with a convoy group (with a double shot of engine cleaner) I was then averaging 34mpg.
One thing to consider that is harder to test as rigidly as done with this video: When I accelerate hard(er) I reach my cruise speed faster than accelerating softly, that means I can go for a slower cruise speed while keeping the same average speed as the softer acceleration. Combining that with the high-throttle, early shifting approach, which gave a good balance between economy and accleration in your test, might still be the way to go.
I think it’s important to take the air fuel ratio into account. Many vehicles will tend to push more fuel than the perfect AFR when the pedal is pushed all the way to the floor, which means that there is more fuel being dumped into the combustion chamber than is needed for the air to react in an optimal way. This means that combustion isn’t quite as efficient. For half throttle or less, many cars will typically still keep the AFR around the optimal 14.7:1 ratio, which allows the engine to combust the air fuel mixture as efficiently as it is able to. When not accelerating hard, it is easier for the vehicle’s ECU to keep the AFR close to the most optimal ratio.
The only logic I can think of is the reduced pumping losses when your throttle body is wide open. But that alone does not make high acceleration efficient. Wheel slip (much of which cannot be felt), high RPM (more heat loss and less efficient combustion), and the likelihood of running into some kind of obstacle requiring braking sooner (aka, over-metering fuel for given conditions) all make accelerating quickly nowhere near as efficient as gradual, linear acceleration. Love your content!
But if you still shift relatively early and have enough distance to fully lift and coast, a hard-ish acceleration should be the most efficient option no?
As others have mentioned, a lot of turbocharged engines need a rich air-fuel mixture when the engine is under boost to keep detonation at bay. At the same time, I have my reserves trying the high throttle, low RPM shift on a turbocharged engine, given the risk of low-speed pre-ignition(LSPI). One info that would be nice to see is the intake manifold absolute pressure(IMAP), or more simply, just how much boost/vacuum the engine is under. Half throttle might be okay for a layman's understanding, but for more technical folks that know every car has different throttle mapping nowadays(sometimes changing the driving mode will change the mapping within the same car), it's a bit too general. Is half throttle putting the engine in lighter boost, no boost/vacuum(almost simulating full throttle in a comparable NA engine of the same displacement), or a slight vacuum? People with an OBD scan gauge can use this info to their advantage. Then there is the elephant in the room: you are reading the estimate in the gauge cluster. Now I understand that it's unrealistic to fill up after every run and longer drives would introduce more variables to throw the test off, but realize those things are sometimes pretty wonky. The one in my Camaro for example can be anywhere between -2%~12% better compared to the actual fuel efficiency(using miles driven and fuel filled up from the receipt). It tends to be 10% better than the estimate but that's not always the case. Mazda ones are typically a bit more trustworthy in my experience, but those also sometimes show worse efficiency in the gauge cluster than the actual mileage. Oh well, I don't really drive for economy myself for the most part. My fun car with a stick shift is a V8 so I drive for smiles per gallon, and my other beater is an old automatic. I do somewhat aim for slightly better economy for it but other times, I let my silly side take over and let VTEC kick in, yo.
AEM sells a great AFR and boost gauge (failsafe) and I have one on my turbocharged car. I think it would be most efficient to give it about 70% throttle and change at 2500-3500 RPM depending on your car while being smooth with the throttle movements, making sure not to lug your engine or run rich AFR. I could do this but my car's MPG readout updates quite slowly and it would be hard. I haven't tested with this car but my previous car's MPG estimate was spot on, albeit with slightly larger tires than stock. V8 honda? 1st gen NSX?
"smiles per gallon" is exactly how I drive my car on a twisty B road in England. Its only a 148bhp Focus but its fun when let loose. Who cares about economy when youre having fun!
@@CrazyInWeston I wish there were fun roads near me, there's a road with 1 good and 1 decent corner near me. Little elevation change = few curves. I love Texas but I have not found any fun roads that I can safely/legally go fast enough to have fun on.
@@johnhunter7244 Prob why on the worlds "greatest driving roads" Jeremy Clarkson said it wont be in the USA because "everybody does 5mph" he also saw said it wont be Australia because "its full of Spiders" and not Africa "because everyone rides an ox" or the Middle east cos "the Americans will shoot you"
The instrument cluster reading is generally quite accurate. Its accuracy is by product of the ECU needing to very precisely meter fuel into the engine to ensure target AFR and emissions compliance.
Thanks very much for this. I'm actually amazed by my Mazda 3 2016 that gets 8.4 L/100km with fairly gentle driving with slightly aggressive episodes here and there. Not ridiculing your video though, not at all, but it's thanks to this that I can appreciate my car even more, so thank you genuinely.
There has to be a balance between engine RPM and efficiency, which is offset by time spent at lower speeds and offset by drag coefficient at higher speeds. Really interesting video and well thought out, thank you for sharing
I just passed my driving test first time this morning I thought I'd come here and thank you for your content it definitely contributed to my pass, Thank you!
I think the idea behind smooth acceleration is most important in cities when you're starting and stopping a lot. Going from 50 to 0 burns twice as much fuel as going from 25 to 0. Going slower overall rather than going right to the limit every time you move saves fuel, you're just going to waste it all anyway when you hit the brakes and turn that precious energy into heat.
Actually, going from 0 to 50 is significantly more energy usage than 0 to 25. In fact, it's at least 75% more, even if there wasn't drag or friction involved.
You are absolutely correct about higher speed = more energy needed, and that having to artificially brake just throws that energy (ie money) away. However it is even worse than you think - Kinetic energy is proportional to the velocity squared, therefore the ratio of energy needed for 50mph and 25mph is 50*50 to 25*25 ie 4:1
I had fun with this video, but this is a very complicated issue and I don't think it can be covered in a few minutes. but hey entertainment is the aim here so good job. :)
Very interesting video, makes me want to do my own tests. One thing to note here is that you are changing gears at different RPM's for each throttle level. Doing tests where you shift up at the same RPM, while changing the throttle amount may show different results. In order to complete it you could even do the same for other RPM levels. That being said, on its own it is already interesting to see the difference between an aggressive driving style (more throttle, shifting later) and a relaxed driving style (less throttle, shifting earlier) is already a good real world test
This was a surprising result to me, as my driving instructor here in Finland (almost 15 years ago) taught to us that the most fuel efficient way to accelerate is to reach your target speed as fast as possible (safely and reasonably) and then start cruising. I always thought it sounded a bit weird considering the high RPM:s but nevertheless believed my instructors word. One thing that popped to my mind was that maybe this was true back in the days when cars had carburetors in them? As my instructor was quite an old man he could've had outdated views on this subject. Thanks for the video, cheers and have a great day!
Solid video! My whole driving style is based around driving it eco, but at the same time not being a grandma on the road. I still drive the speed limit and try to set an example, however I rarely accelerate slow, even if it might cost me a bit extra fuel. And I am not talking about driving it like I am racing either. Starting off a traffic light or stop sign I accelerate half throttle and change at around 2500-3000 RPM (maybe 3500 if I am feeling a bit rowdy) and go trough gears 1-3 and just accelerate to the speed limit (50km/h) and just drop it into 4th gear, rarely into fifth if I am driving on a wide and straight boulevard. My reasons being: 1. I don't want to feel like a snail around people and angering them (I've driven behind people which hold me in 1st gear for a solid 10 seconds and and the car jerks around it's a bad experience) 2. I like the sound that the cone filter makes when I press the pedal half way trough so it brings me pleasure when I drive around instead of it being a chore. 3. My throttle is cable driven so I get most of my torque with 1/2 throttle or even 1/3 throttle, compared to drive by wire. 4. I am hoping it reduces pumping losses and helps me get up to speed quicker and try to have good brake specific fuel consumption so I have more time to cruise. 5. It's a 98 civic with a small 1.4 liter N/A engine. Although I messed around with it and modified it it still feels in it's happy zone above 1500-2000 rpm, bellow that you feel like it's dragging it's feet. Hence why I rarely let it fall bellow 1,5k. If I dip bellow that I simply rev match and downshift. Small turbo cars or cars with bigger displacement that have good low end torque allow you to accelerate easier on lower revs, but small N/A engines lack that so you need to rev them a bit more to bring them to life. With all that being said most of my slowing down is focused on anticipation and letting the engine slow down on it's own if you are nearing a red light for example and there is traffic ahead. Even if you accelerate gently and don't speed to much, most of you economy is lost when you overuse the brakes. Hence why I was getting good economy before even when I was pushing it around (Around 5.2/5.3 L to 100km with most of my trips being 80-85% rural driving and 15-20% urban driving give or take). All in all it's really the best of both worlds. With moderate throttle and anticipation you still make the driving experience fun and engaging while maintaining good economy + the added benefit of reducing the risk of people behind you getting impatient and doing reckless overtakes and all that. You can't escape them completely, cause some people will always be "in a hurry" but it reduces those encounters quite a bit. Cheers!
The one where you accelerated briskly to 3,000 RPM seems to be the best of both worlds. Economy was decent, and you may be able to merge onto a highway if the slip road is one of the longer ones. But, as said in the comments, it doesn't make that big of a difference in the big picture, so obviously safety over fuel economy, and a bit more progress as a bonus.
The run where he floored it and changed gears early, I think he got hood mileage because you spend a decent bit of that time in neutral shifting 5 times. Regardless it’s not healthy for the engine to be flooring it under 2k, especially turbo charged ones. Mine throws misfire codes the moment I get into boost under 4k if not fully heated lol.
BMW did a study some (15?) years ago. Full throttle, but all shifts at 2,000rpm. Lowers pumping losses. Works well on my Cooper S, added 5 mpg to average in around town driving. More fun, too.
Very interesting findings, gentle is the way to go, but not very fun :P I really do wonder how a diesel would fare here. Not sure if this particular engine does it, but some (maybe they all do it, not sure?) turbo petrols at high loads (full throttle) and low rpm tend to run rich to prevent knock. No such thing in a diesel, since it can basically run on fumes without worrying about knock and air/fuel ratios, so I wonder if there would be more of a benefit of hard acceleration (70-80% throttle seems to be the general rule of thumb on some TDI forums i've read) and shifting at let's say 3000 or wherever the peak torque ends and not redline at 4500.
@@ConquerDriving yeah disel works great at 5-6th gear about 2k rpm u can get about 4.5 L/100km with 1.6 enengine but lower speeds take a lot off fuel at city driving,specially with higher rpm
Best thing to do is to look at brake specific fuel consumption (BSFC) graphs for your car (or plot some yourself using OBDII software). Most cars have the best power:fuel consumption ratio relatively low in the RPM range, just below peak torque, at around 60-80% throttle position (depending on the load). Every car is different. One on-the-road hypermiling technique is to accelerate close to this peak power:fuel ratio regime until you're at your target speed. OBD2 software live readouts and practice can be used to get good at this. There are tons more hypermiling techniques I'd love to see you test out, such as pulse and glide. This is where you take advantage of the better efficiency at higher loads by accelerating harder then coasting (or partially letting off the throttle for an on-the-road technique that's usable on public roads) then repeating, rather than holding a set speed. Another hypermiling technique I'd love to see you try would be invreasing throttle going downhill rather than uphill. This is where accelerating downhill is more efficient (since gravity is helping you), then allowing the car to decelerate going uphill (with some even coasting when going uphill). Cruise control basically does the opposite of this by trying to maintain a fixed target speed.
Given how close the results are between normal and hard acceleration on a turbo engine I feel like an NA engine might actually do notably better as a result of not needing nearly as rich an AFR for cooling.
@@marvin2678 depends on your definition of properly. IMO fuel economy is the least important thing to cater your driving style to. I would drive either engine mostly the same. Don't rev too high while the engine is cold. Once it reaches operating temperature, you should not be afraid of getting near the redline on acceleration. This does not hurt the engine and in fact helps keep it clean. Modern manual cars will tell you to upshift too much, too soon, for fuel economy and emissions reasons. Automatics just plain force this on you. But this can get you into lugging the engine and bad throttle response situations. Don't hesite to downshift when you expect to load the engine soon, even just a bit. It'll greatly increase the general feeling of driveability of the vehicle. Both turbo and non-turbo engines have an operating RPM from which upwards they will start to feel responsive. This is where you want to be when you start to accelerate or climb a hill. Only lower engine RPM by upshifting AFTER you reach low load and constant cruising speed. This point will vary from engine to engine, turbo or no turbo. Try to find this point for yourself by accelerating in, say, 3rd gear from low speed to redline. Somewhere along they way, like maybe 2000 RPM for example, the engine will start to feel and sound "happy". The only real difference in feel between turbo and non turbo engines is how and when the engine transitions from unhappy to happy. Getting back to fuel consumption tho, the turbo engine will use more fuel in the happy area, despite being physically smaller than a non-turbo engine with the same horsepower output because it uses extra fuel for cooling of the combustion mixture. The non-turbo engine will use more fuel in the unhappy area because it has more internal friction. I have a personal preference for the latter because I drive a lot in the happy area. Non-turbo engines also just feel and sound better to me.
The problem with this test is that it's not isolating for average speed. The gentle test has a significantly lower average speed, so this test really just confirms that lower driving speed is better for efficiency.
The run where you changed up late but didn't accelerate hard sounds to me pretty similar to people who just won't press the gas pedal more than a certain amount, so going up hills they stay in low gears for a really long time because they don't want to give it more throttle to get up to speed.
Really happy to see the half throttle one getting those big gains, I don't know why but I've been doing that all the time lately. A proper financial decision by accident!
Being a family man and driving in Bengaluru, I'm criticized for slow acceleration. Earlier I'd claim it was because I love my family and accelerating slowly gives me better control over a chaotic sutuation (bikes + cars+ autos swarming all over when the lights turn green. Now I can say it helps with fuel economy 😀
Accelerating gently not only helps with fuel economy, but it also increases the engine lifespan. It has many benefits but accelerating too slowly can be a problem. It can cause the traffic flow on the road to slow down and may also cause clutch wear and tear if you hold it down for too long (especially partially).
Just please don't be one of those guys accelerating so slow on the ramp that they merging into the highway at 50kph its not safe for you or the people around you.
@@ConquerDriving I would like to see the difference too. My brother and I both have Ford Fiestas with direct injection and 5 speed manuals and 15 inch wheels. Mine has the turbo 3 cylinder but my brother has the NA 4 cylinder. He has far less torque down low so his gears are far shorter than mine. My economy should be better during acceleration as I can keep my engine speed lower but on the highway economy is almost the same even though his cruising rpm is higher. Would be interesting to see just how much turbo vs NA engines vary across a range of engine and driving speeds.
Actually a further distinction needs to be made: a small turbo does indeed increase torque at low RPM, whereas at high RPM it has to open the waste gates (which removes much of the efficiency benefit). So this favours a low-RPM driving style. At high RPM it's hardly different from an NA engine - in fact rather less efficient, because the engine itself will generally use a lower compression ratio. By contrast, a large turbo doesn't even spool up at low RPM, which ruins both torque and efficiency. This is one reason powerfully turbocharged sports cars can't be efficient even when driven at low speed. However, a small engine with comparatively big turbo can actually be quite efficient, even at high RPM - while being completely useless at low RPM.
thanks for confirming my theory. been driving professionally for 3 years, had debate with other drivers which driving style uses the least fuel. i think I can say I won the debate with this video. i drive gently, but I still get to the destination on time. that's what matters anyway, being on time.
I have an idea why this is happening, not sure tho. The experiment you conducted shows that gentle accelaration is the way to go for turbocharged petrol cars. And i say that is expected since almost all turbocharged cars put their max torque around 1500-2000 rpm band. But lets say you are driving a naturally aspirated car which most of the give their max torque around 4000-4500 rpm, it is best to full throttle and reach that RPM band. After reaching desired speed, you can drive at normal rpm's.
Well, that explains a lot! I have a 2020 Toyota Corolla hatchback with a 2.0 liter NA engine. I've noticed that I get far better gas mileage when I really get the engine revving before I change up a gear. Like, 4,000 rpm, as you mentioned (with the exception of 1st gear, I change up into 2nd as soon as I can). My car's normal rpm is 2,500 or so. If I change up at 3,000 rpm, I get fewer mpg versus waiting till I reach 3,500 or 4,000. I had long been wondering why I get better mpg when I accelerate more aggressively, and now I know why!
I would like to test an NA engine, but as I understand it, wide open throttle at low RPM in an NA engine will have a higher efficiency as there are less pumping loses and the fuel mixture will be less rich than a turbo.
Amazing test, thank you for all the detail. The only info I was missing is the time it took to do the distance, not just reaching 50mph. (though I guess one can measure it from the video 😄)
Hello. Very nice series of tests. I would like to chime in with one remark. We have three variables there. Fuel efficiency, time of travel and fuel consumption. The tests you did are focused on fuel consumption (the previous one), fuel efficiency (this one) but you are missing the last one, The most important one. Travel the distance in specific time and then compare the fuel consumption. The reason why you want strong acceleration is mainly the time of travel and reasonable fuel consumption. The idea behind it is: At 50kmh you have lets say 7l/100km fuel consumption. You want to reach that speed quickly and then maintain it. If you accelerate slowly then you effectively ride at lower speed and that is by definition more fuel efficient (with some exceptions of changing gears etc) but that slow pace will result with much longer travel. Also accelerating slower can cause you to miss green light and will have to accelerate again and idle on the intersection. But thats a different story. So to compare quick accelerate you would have to have second run with higher max speed and match the travel time. And then compare the fuel consumption. So that are my 2 cents.
That's a good point. This video is not considering journey time though, it's just what's the most economical way to get from A to B. Journey's have a fixed distance but the time is not fixed. I understand engines are more efficient at higher loads, maybe a video for another time.
i have never touched a manual in my life, but if you want to accelerate quickly like that, then you just drop a gear and start your shifting and accelerating from that lower gear, right?
I drove a 1.4L Clio for a few years before getting my 1.4L TSI Ibiza, coincidentally it looks like it has the same engine as Richard’s Leon in this video. From my experience, the slower (non turbo) Clio was much more forgiving on full throttle. I could spend a good portion of the journey giving it all she had (which wasn’t much) and not have to think twice about the MPG which usually came out around 39-45. It never strayed away from this figure regardless of how much or little I tried to drive efficiently. I guess you could say the “spikes” in consumption were smoother. The Ibiza on the other hand varies much more. A gentle drive can see me around 48-55 MPG. A faster drive could drop the MPG right down to 38 which is a huge difference. I’ve found the turbo engine to be more fuel-efficient but *only* when I wanted it to be. By comparison it drinks a lot faster when you want that extra performance.
@@joshuatk59 What's the difference in power? did you factor in braking? If you are driving faster and braking from higher Vmax then you are also gonna put more energy in to heat.
Skoda Fabia 1.6 16V (77kW) non-turbo petrol.... I work in town 18 kilometers from where I live, there are 6 villages on my way to work stuck together with just few km between each of them... I can get around 5.8-6,1l/km riding 50km/h in 4th gear (around 2000 RPM), giving it full gas after leaving the village shifting into neutral at 80km/h or 100km/h (a bit over but my tacho reads +5km/h) and cruising into another village.... I can get around 6.1-6.7l/km riding the same speeds, getting feet off the gas and leaving it in the gear (I have my spots to ease off and to get around 55-60km/h entering the village (city speed limit is 50 +-10%) but not being in the neutral literally half the time... Accelerating to around 70-75km/h and shifting into the 5th at around 2500ish RPM and being a bit gentle on the throttle accelerating all the time... And by the way, look at that... the car in video suggests you to shift into the next gear at around 1800RPM, which just looks silly in car with TURBO.... jesus
@@joshuatk59 turbo engines have always been more thursty in the town traffic compared to NA engines, but in comparison the turbocharged engines have a nicer power delivery and better economy if you drive smoothly
That was definitely an interesting video. One thing for anyone who was saying that accelerating harder should have resulted in the same/better fuel economy, because ICEs are more efficient at higher loads - That may be true in theory, but in practice I think there are two things that you’ll find will cause worse economy at higher throttle. The first is called transient throttle enrichment - it’s a part of the ECU programming that adds extra fuel when the position of the throttle changes rapidly (as would happen during a gear change in a manual transmission car). Adding extra fuel will worsen fuel economy somewhat, but it keeps the engine from running lean and potentially detonating. The second is that at higher loads, engine tunes tend to target a richer AFR or
engines are more efficient at higher loads, as long as you dont get to the fuel enrichment range newer cars use numerous techniques to decrease the efficiency gap between high and low loads a good example on this is the egr valve, putting some exhaust gasses back in the cylinder means you dont need to throttle the air intake as much, which means less pumping losses, which in turn gives better low load efficiency however, there are numerous reasons why accelerating hard and then cruising is worse than gentle acceleration an obvious one is getting up to speed faster and then cruising results in more aerodynamic losses one that is not as obvious though, is the efficiency thing. high load (at low rpm) is indeed more efficient, but when cruising you are under very low and inefficient load. gently accelerating is more efficient than cruising because you stay on a medium load. if you look at a bsfc chart and find 3 points that represent these 3 scenarios, running a few calculations will show you that whole story
I think you misunderstood. Your engine is most effecient at full throttle AND LOW RPM. Shift at 2k and you'll see the difference.
2 роки тому+1
There are a few things to point out here. First of all, it all depends on how much work has been done. The faster you drive, the more work you are doing by pushing the air, as the air has to accelerate much more quickly to get out of the way of the car. So the faster you accelerate, the faster you actually drive through the same route but you also do more work by pushing more of the air out. Unless you move in vacuum, both the movement of the car and the movement of the surrounding air is the work done. That's why it's very hard to measure this on the road, you'd need to test this on a dyno to equalize air resistance for this sort of test. Otherwise you have two variables, engine efficiency and the amount of work done. Then we go into efficiency curve of internal combustion engines. It is 2D map. One dimension is your rpm, another one is your engine load (how much pressure is applied to pistons) and the result is the amount of fuel used per hour per brake horsepower. Now if we are talking about a constant amount of work to be performed, then you want to get to the sweet spot that has the least fuel usage producing the expected power. Well, we can't do this though on the whole road. By changing your acceleration you will change the load while accelerating but as soon as you start cruising, you have only so much load and you can only pick the rpm. Well, there's yet another thing you can add to the graph, those are total power output that makes it easier to read it. Here's the example on 2016 Honda 1.5l engine: i.imgur.com/TSHt76e.png This one is actually marked in BTE in % which means "how much energy from fuel is turned into work". Higher is better. It can also be translated to the other unit but we don't care about the unit now. Here you can see that the sweet spot is at 40-60kW somewhere between 3500-4000 rpm. This gives you the best fuel efficiency. If you accelerate harshly and use over 60kW, you can see that you enter much less efficient range. If you accelerate too gently, you may only use 20-30kW and you are also in a bit less efficient range. The worst thing you can do is accelerating gently while staying on high RPM. It's even worse than full throttle. The engine load depends on the actual load (hills, wind, car weight, trailers) going through the gearbox (the faster engine rotates, the less load it has per rotation) and how much work the engine is trying to pull out. So the more throttle you use, the more loaded it is which turns into faster acceleration. Accelerate gently and you reduce the load on the engine which may go into less efficient range. Now the acceleration you are feeling is the output in kW which can be achieved on multiple gears. You'd have to figure out where is the 50% acceleration in your case. Can be done easily on dyno, can be done by feel on the road when you get used to the car. Now you know how does the halfway acceleration feel like, you should use the gear that will keep you accelerating around this 50% with almost full throttle. If it does not accelerate, you have too much back pressure in the engine, it's inefficient (starts vibrating too). Keep the revs high enough to be able to fairly easily accelerate and nothing more. And use almost full throttle. After all it is somewhere in 50% of rpm range which gives you roughly half of the power output when you floor it. This diagram also roughly translates to the torque curve of your engine. You want to be on the highest torque range while keeping quite high load on it, this will put you right into the ~40-60% rpm with roughly half of the peak power. This also explains why diesel trucks are much better at towing. Towing increases the load even 3 times but the typical truck engine runs barely at 20% power output without the load. It's made to do the work and when you start towing, you enter the much more efficient range while just cruising (you loose efficiency while accelerating). And that's why EV is so bad at towing too. Diesel trucks get more efficient with increased load, EV is already very efficient and increasing load can increase the energy usage by 3 times (cutting your range into 3rd). Anyways, low rpm acceleration will usually put you into high load scenario and even if you use a little throttle, it's all it can do. It runs at high load and low revs. Not that efficient. The mid rpm acceleration is the most efficient range given that you can use all of this power by quickly accelerating. This will give you the best fuel consumption per work done. Now if you calculate this based on the distance traveled, it might not be efficient because air resistance adds a lot with the speed. Slower acceleration means staying longer in lower resistance. If you calculate it based on the time it took to travel that far, it might be actually a very good indicator. From my experience in city driving, the best fuel economy is when you stick to this acceleration pattern (high throttle, mid rpm) and use engine braking as much as you can. In the city it usually means accelerating to the speed limit quickly and slowly slowing down with the engine when you approach intersection or another traffic.
It would be interesting to see how naturally aspirated cars would compare in this test. I wonder if the results would be different considering turbo petrol's run richer under hard acceleration yet support the engine better (more fuel efficient) at low loads.
I have an eighteen year old, SLK 350. Sport returns a better MPG than comfort mode. I've not tested as exact as this but slow speed destroys my MPG. I'll experiment more at a later date,
@@JohnPaulFoster I'm not sure myself about the sport/comfort thing. I'm not surprised you get bad mpg showing slower/ in traffic etc because you've got a big 3.5l V6. Bigger engines like yours would be at their most efficient in top gear on the motorway, with alot less of a penalty for going 70+ mph compared to smaller NA engines. A bigger engine doesn't have to work/ rev as hard for faster cruising. Due to its size it will burn more fuel in the slower regime because the extra capacity is largely wasted.
75% engine load @1,800-2,500rpm is the target for me during acceleration. My car is a 1L 3 cylinder Aygo though so it's pretty slow at 75% load in that rev range... I get Around 72mpg.
For that MPG result, is that In town, combined or motorway? I accelerate quite gently but still acceptable on roads and change at the earliest point possible (usually 1800-2000rpm) get about 55-60mpg in town (where you constantly accelerate and slow down) in my 1.4 turbo diesel hatchback.
@@squeakers27 my commute is around 75% A roads and 25% city. I'm rarely ever out during rush hour though. Funnily enough though I get around 80mpg in city driving and 70mpg on A roads (at ~50mph). My partner has a 1.9 diesel Skoda Octavia and I find it gets opposite results, about 50mpg in the city and around 75mpg on A/M roads. My best ever full tank was this year around the time of that 40°c heatwave at 79.1mpg (it did 494 miles and used 28.4L). I was taking it steady though as the cooling system on the car was struggling to keep up when ever I used the throttle. It was probably unnecessary really as the fan never kicked in anyway but I did see allot of broken down cars on the drive to work that day!
I figured as much but never took the time to whip out the pen and paper, good job. I regularly get 30-31 mpg highway with my 02 C230 Kompressor. Ill cruise around 90mph no problem, I let anyone else drive and its usually 24mpg (on the same trip)and they overall go just a bit slower at cruise, but really stomp throttle immediately after deceleration. Their reasoning always was that it used less fuel and could not be convinced otherwise. Theres also something to be said about listening to your transmission, some people really make the tqc work harder than it needs to lol. Glad to know I'm not crazy.
Ive always been gentle with accelerating and braking not so much for fuel economy but just to take it easy on the engines. Does yield great mpg results because of it!
Who in their right mind believes that logic? Acceleration uses the most gas so driving with the throttle wide open will use significantly more gas than doing gentle accelerations. Braking only wastes gas if you're constantly braking to slow down then to accelerate immediately after braking
Well the idea is that since acceleration uses a lot of gas, you want to be doing it for as short duration as possible, while taking advantage of the efficient bands of the engine, so high load, low rpm - around peak torque. My theory is that this engine ran rich to prevent knock when he was full throttle and shifting at 2k, and there would be more advantage in a diesel, where knock isn't a problem
@@EndstyleGG that would work for a tuned engine or high performance car from the factory. Most of us that drive the grocery getters won't have any advantage to doing hard accelerations cause those are mapped to just dump fuel to keep up with the rpms since the injectors are small.
@@Kisame663 cars tend to be most efficient at around 50-55 mph. The reason people think it is better to accelerate faster is because you would be at the most efficient speed for longer on the same piece of road. they are actually correct to an extent but can overestimate how fast they should accelerate. hence the purpose of the video.
@@alfaruuto5182 that I can agree with, but it's wild to me to think people believe hard accelerations make any kind of sense outside of race applications when you're trying to save gas with these bonkers gas prices.
Probably if you accelerate like 5 times slower than "very gentle" run youd probably get worse economy, but again maybe and no one will ever do this, so slow acceleration is the key.
Thank you everybody for pushing their car so hard you guys save me so much money in body work I go to my local pull apart and get fenders and hoods and stuff for nothing because you broke your engine while I continue to drive my 1962 Corvair and make money thumbs up continue to break your lease agreement please it makes me cash flow... Sarcasm in case you didn't know
as a hybrid owner for quite some time, I can very much confirm your suspicions. Accelerating at high speeds and stopping last minute tanks your mpg. In a hybrid taking your time and slowing far ahead of time is massively beneficial to your mileage.
You've missed the actual magic combination. For gasoline engines use full throttle but, take a look at dyno graph at maximum torque: For N/A you'll see it peak and you want to use that peak both slightly after and slightly before it, so switch gears accordingly. For turbo check where it starts to be close to maximum and switch gears so that it doesn't fall below that. Keep throttle pegged when accelerating as it will amount to maximum air put into engine, ECU figures the gas required and engine is less efficient and less powerful = less fuel at lowest rpm, most efficient, moderetly powerful at mid rpm and than it just dumps fuel and is most powerful at highest rpm. With N/A VVT 2.0 you can expect smth like (fuel per 100km/power/RPM) 5l/15KM/1000RPM, 9l/130KM/4000RPM, 20l/150KM/6500RPM.
Would be interesting to compare different methods that have the same total trip duration: accelerate fast(ish) and cruise at a lower speed or accelerate slowly and cruise at a higher speed. And all that for as realistic a trip as possible: several accelerations and decelerations etc.
For anyone interested, I have a 2016 Honda CR-V with the i-DTEC diesel engine and AWD. I've found the most economical way to drive it is to accelerate not too slowly, but somewhere in between that and briskly. The auto gearbox seems to choose the gears effectively and it's most economical at around 50mph where on a continuous run, it'll do well over 50mpg.
If you try this same experiment with a very efficient Electric Vehicle it might actually be more efficient the faster you accelerate as long as you take the same amount of time to cover the same distance. Work done accelerating varies with the square of change in speed. If you accelerate quickly you don’t have to reach the same top speed to have the same average speed.
Even before clicking on this video, and not even having any practical driving experience, I could tell you that the gentler your acceleration, the better the efficiency. How would I know this so accurately _a priori_ ? I have good knowledge of this field of physics called thermodynamics. Thanks to your video, it is comforting to know that my knowledge still has any use at all in this broken world as it is right now.
I think you are right about the physics side of things, but it's important to know that engines run at different efficiencies at different loads and revs. So even if more energy is needed to do something, it can sometimes be more economical if the engine is at an optimal state. Is it true that in the world of physics, accelerating more quickly uses more overall energy than accelerating more gently to the same speed?
@@ConquerDriving As far as pure thermodynamics are concerned, any device that transduces energy or produces mechanical work will do it in the most efficient manner if the process proceeds in the so-called equilibrium mode, which means making the process a sequence of equilibrated states. In simple terms, making a process proceed slowly grants more time for the parts of the machine to come into equilibrium at every moment of its operation. Therefore, a slow process in general is closer to equilibrium mode, making it more efficient. I acknowledge that exceptions for specific mechanisms under specific modes are possible, but looks like a petrol car is not one of them.
that was a great test. my personal guess is that the main reason, why it's usually worse to quickly get to the cruise speed is that you get into a position of more air resistance faster then
I think a bigger factor for electric cars in town vs motorway - or at least, a factor at least as big as work done by the motor - is brake regeneration. Driving around town and braking gently will recover a lot of power but, when on the motorway, you're probably more likely to engage your brake discs needing to slow down more rapidly and burn energy away rather than recover it.
Breaking is a big fuel consumer too for the energy spent to get up to speed only to lose it again to the heat generated by the breaks, lifting early does save gas. Gently accelerating and decelerating is the answer to an efficient and comfortable drive. Looking ahead of the car and a 360 situation awareness helps as well.
1. In all cases, you need to burn the chemical energy required to reach the kinetic energy level of your intended cruise speed. Right off the start, it doesn't matter much if you derate
2. If you derate from peak power to peak efficieny, you will save some gas as the friction losses inside the engine are lower for a few seconds. You will often be a nuissence to traffic though.
3. Your average speed may decrease, but then it's more efficient to reach the same avergage speed with a lower cruise setting and a quick acceleration.
That said, in order to drive fuel efficient:
- lower your cruise speed (especially on roads where it is easy to pass)
- don't use the friction brakes, retain as much kinetic energy as possible when maneuvering
(- don't open the windows as it will induce drag)
(- turn off unneccessary subsystems in your car)
(- don't load stuff in your car you don't need)
(- turn off the engine when you don't need it)
If you want to modify stuff:
- go for energy efficient tires (you have a conflict of goals as these offer less traction)
- inflate your tires to the high end
- use low viscosity motor oil, but it has to be approved by the car manufacturer for your climate
If you buy a car, go for a long one if you need space. The more surface area you put against the wind, the more your fuel burn will be.
(extra part:) Dont care about economy. just drive
Estate cars are much better than SUV's at the same volumetric capacity because air drag as you said.
-use the bus
-walk
-cycle
-carpool
No improvement in fuel economy can beat these alternatives. Obviously, it can't work in all cases, but definitely in most.
Rip out all seats, roof liner, door panels, carpets and insulation, get rid of your AC compressor, power steering, take of all your doors, hood, trunk, and drive at 20 mph.
@@danielmezo3092 I had a used Seat Marbella where I took out the rear seats. Now it was lighter and had a usable trunk :)
I like how you test what people says and things that are REALLY interesting. Few channels does this nice content
Agreed. These are questions that really need answers
Few channels do* this
@@kerimking82 you're right, my bad
So he makes a video about people asking stupid questions. Interesting.
he need 16 minutes which i can tell you in 1 comment: yes, he have a greater consumption if he accelerates more, BUT he need more time. time is money, not fuel. drive efficient and not as slow as you can. everyone have less time in their life as they think!
When you accelerate very gently, you are spending more of the time at a lower speed and therefore reducing aerodynamic drag losses. Even though you hit the same top speed of 50mph, your average speed is lower with the gentle acceleration. I would like to see a test with different acceleration rates where you stop accelerating at the speed where the car gets its best gas mileage.
Compared to in-engine losses, drag doesn't become a problem until about 50-55mph. V^2 and all that. You'd notice it comparing cruise speeds over long distances, but not in this case.
Apart from this test mixing two variable changes together (throttle position & RPM at which he shifts), the true comparison would be which combination of acceleration and top speed gets you to the goal in the same time (ie, faster acceleration would be combined with a slightly lower top speed).
according to the law of conservation of momentum (force = mass * acceleration) the car's mass remains constant, while the acceleration changes. this means that force is directly proportional to the acceleration. having a larger acceleration will require a greater force, which in turn uses more fuel for the acceleration.
@@totallynotkacper7629 Yeh, but your total momentum change in both cases is identical. As is the total added kinetic energy. The answer lies in the engineering, not the kinematics.
@@totallynotkacper7629 faster acceleration requires a greater force for the duration of the acceleration, but that duration is smaller compared to a slower acceleration, so it should cancel each other out
Great test! As a hardcore hypermiler, I love to see these fuel efficiency testing videos. What I found is that how you accelerate matters much less than what you do after you accelerate, but I have gotten my best tanks by a small margin accelerating at a moderate rate and shifting at around 2000-2500 RPM. At least on gas engines, efficiency tends to be best at a medium-low RPM and a medium-high load. If you would like to see a visual example of this, look at some BSFC charts. Too little load and/or too much RPM and pumping losses and frictional losses make the engine less efficient; too much load and the ECU commands a rich air/fuel ratio and the engine becomes less efficient because unburned fuel is wasted out the exhaust. How you slow down matters much more. Remember that every time you press the brake pedal, you are basically turning your expensive fuel into brake dust and heat. Letting off the gas really early for stop signs, red lights, turns, etc, and leaving a lot of distance in front of you in traffic so very little or preferably no braking is required is where most drivers will see their biggest gains without getting into drastic car mods or more extreme driving techniques like pulse and glide or engine off coasting.
Hypermiling much more fun than speeding , it certainly makes you concentrate 😉.
It sounds like you're a good driver, I would be a happy passenger in your car.
The BSFC varies between engine types, engines with forced induction tend to perform best at lower rpms compared to naturally aspirated ones, and the same goes with 2 valve per cylider cars vs 4 valve. But general rule of thumb (BSFC charts for every engine are hard to come by) is to use RPMs close to peak torque (eg. peak torque is at 3000 so you should use 2500-3500rpm) under generous throttle (but not with pedal to the metal), and as always go straight to highest possible gear when done accelerating. Hypermiling is one of my favourite activities on long trips, but what you said is 100% true - the worst thing that you can do is braking. I'm able to go between 100-150 kilometers without using the brake pedal just by observing the road before me and acting accordingly. There is also the factor of gravity and potential energy, pulse and glide is not the best technique when being in normal traffic, but can do wonders when used correctly on a road with a lot of uphill/downhill combinations.
@@jakubm1187Great points. I wish BSFC charts were published by manufacturers, it would sure make life easier for us hypermilers. I wonder how true the theory that maximum efficiency occurs at peak torque RPM is on higher revving engines. Both of my cars make peak torque at around 5K RPM, but I can't imagine that shifting so late could be most efficient way to accelerate. As for pulse and glide, it certainly has its place. I have found it to be very effective on hilly roads (obviously not on hills so steep you will pick up too much speed on the way down). I have heard of good results using pulse and glide on longer highway trips instead of maintaining a constant speed, which makes sense especially if the top gear is short. With a tall geared transmission that has the engine cruising at barely above idle anyways, I'm sure pulse and glide wouldn't be as beneficial as with shorter gearing since frictional losses and pumping losses would be less anyways.
Interesting. I'm not exactly hypermiling right now (115 kph on highway, 70 average) but for now I can reach huge distances with driving relatively quick that driving behind me becomes no burden. I usually shift at 2200 RPM which is pretty much the middle of what you stated. My 13 year old Ford Mondeo TDCI on average can manage 1300km (or over 800 miles) if I keep doing this.
Passed my test today with 3 minors and your videos were a massive help in achieving something i've been putting off for years. Thank you! :)
That's fantastic news, thank you for watching and congratulations on passing!
what were your 3 minors? And were you nervous during the exams?
What kind of sadistic society has you take your driving test with three kids in the back?
@@peterjohnson9438 😭
@@peterjohnson9438 What were you smoking awhile ago 😂
I love you for putting the results in all different units. I always hate it when I have to open a new tab mid video just to keep track of the mpg -> L/100km ratio
My mother and grandfather both have near-identical cars (same engine, same mileage - 170k), and they both drive similar roads, and yet my grandfather gets about 20% more MPG than my mother. For years I've been saying it's because she's the type of driver to get to the speed limit as fast as possible, then brake at the last possible minute, whereas my grandfather drives 'properly'.
Her reason for that driving style is that she was taught to drive right next to the motorway, and we have a load of country roads where you really have to accelerate when you pull out of a junction.
I can kinda see that being a valid reason, but there's no need to drive like that everywhere!
I sold my father in law's car. I drove it myself for a week. 1.4 na engine.
Checked the BC when I collected it, drove some 500 miles.
Result: 72% better mileage.
Ah... excuses excuses... Just because something is a habit, it doesn't mean you can't break that habit. Discipline of the mind and all that
@@233kosta it's very difficult after a certain age. Neuroplasticity goes down. You'll realize when you get there.
@@shadmansudipto7287 Yeh, I've observed that. I've also observed octogenarians who are as sharp as they come. A lot of it will come down to how much use that brain sees, and I plan to keep mine as active as I can
I hate it when people stop abruptly past the stop sign or start to speed up before I can even pass the sign. You never know if they are actually going to stop in time & I'm always ready to swerve away from the vehicle if they don't stop but that's not always an option with oncoming traffic.
The tests, the explanation, the info for us and eu drivers, the camera's... this gotta be the most complete youtube video I've seen in a good while. Thanks!
I would love if you put all the results in a spreadsheet to compare them at the same time, that would be incredible! Thank you for the awesome video!
Exactly what I have been debating so far. Why are you always in my head?
Jokes aside, thanks for the video! You've been a great resource for my manual transmission journey here in the US.
If the constant speed phase is much larger than the video, the difference becomes negligible, it seems. Since we have a short run on the video, it becomes more pronounced.
This was a great video, answering a question that I had myself. Now I know that, at least in urban driving, there's absolutely no reason to get "spirited" while driving, since the constant speed phases are very short, and acceleration/deceleration takes much of the total runtime. On a highway I'll be pleased to accelerate faster to merge, knowing that it won't hurt my MPGs that much.
That's very true.
Well to be fair, it's an acceleration efficiency test so obviously the more of the test not being acceleration will ruin any differences
@@tommik4872 Exactly. As this video shows, the way you accelerate just isn't all that critical when it comes to overall fuel efficiency. If he accelerated then cruised for 10 miles, any differences in efficiency as a result of how he accelerated would never be seen due to normal run to run variance and wouldn't be as conclusive. The way he did this test was perfect IMO since he needed to keep all the tests the same distance while still leaving enough room for the very slow acceleration test.
I drive in bumper to bumper traffic in my 1.5 tsi engine and get a fuel economy of 6-7 kmpl when using fast accelerations and 8-9 kmpl when gently accelerating and braking (over 15-20 kms), so yeah, the difference isnt negligible in bad traffic/ roads
we test how we accelerate, not how much the car will consume if it is on the cruise control, of course they would consume the same 🤷♂️
These short runs are most relevant to in-city driving, where you're doing accelerations from a stop quite often. This is valuable information.
No exaggeration, you are actually doing the nation a service with these videos 👍😂.
Teaching people (for FREE!) on how to save money in times like this! Proper quality contentas always👌
Which nation in particular?
@@MrArmorcat pretty much every
Just passed first time with 3 minors, thank you so much your videos have been a massive help ! ! !
That's fantastic news, thank you for watching and congratulations on passing!
What you mean you had your first time with 3 minors? 🤨🤨🤨🤨
“first time with 3 minors”
@@georgejungle138 wtf
Love the video. I would bet that the reason Full throttle and half throttle were that high was because you stayed in 1st for so long.
1st destroys your mileage.
In my own tests, the best option between speed/mileage was 1st until 2k then 2nd to 35mph. The goal with 1st was to get into "Turbo range" for second.
Also no need to full throttle 1st, it's wasteful.
All in all, your results match my experience.
Cheers for the dope channel, your manual control is top notch.
I've been driving on an automatic licence for the past 15 years and today I took a test in my grandad's old (S reg!) Manual Renault Mégane... I've had no lessons and my only tuition has been practicing occasionally and watching these videos... I passed with four minors despite having a nightmare in the car park where the examiner announced "you're holding up traffic" - I decided to exit the car park and re enter then proceeded to stall on the monouver!!! - without these vids I'd have either of had a meltdown or continued to reverse where I was forcing the one behind to reverse - you're literally the only reason I passed today... Thank you so much!!!
It's amazing to hear the videos have helped you, thank you for watching and congratulations on passing!
@@ConquerDriving as a follow up I went onto pass my cat C today (that was the reason I was doing the manual car licence as it'll cover both now) - your videos helped me again today as its all the same really 😀😀😀
I think the big reason for your results is the turbocharge. Most turbocharges have peak torque earlier, in the 1500~2000 range, which means you get more work and power delivered earlier. In an aspirated engine, peak torque is usually reached over the 5000 RPM limit.
My naturally aspirated Mazda Skyactiv-G 2.0 petrol gets peak torque at 3000-4000 rpms.
@@Noksus I have one too, I can say they have the perfect midrange torque.
Peak torque in my natural 90s aspirated engines is at 4000 and 4400 rpm respectively. In my turbo charged engine it's at 2200 rpm. I believe upshift no later than peak torque is most efficient.
yes!!!!!
@@Noksus My 1.0L car has torque at 4600 rpm's
Hi, I passed my test today!! Thank you so much for your videos I don’t know what I would have done without them!!
That's fantastic to hear, thank you for watching and congratulations on passing!
Fantastic adherence to methodology and I love that you worked so hard to control as many variables as you could! I do fear one thing may have been overlooked though: built-in fuel efficiency indicators on vehicles are notoriously inaccurate from vehicle to vehicle - especially over extremely short durations. They rely on pre-ordained formulas built into the ECU logic based on RPM, requested torque which is a fudged guess from the ECU anyways, fuel pressure or manifold pressure, and - this is the kicker: throttle position.
While they may work better over long trip durations (error averages out) and certain vehicles may be more accurate than others (Nissan & Hyundai are notoriously bad, whilst Subaru and Mazda seem to be slightly better), you'd be better off testing this either with longer test cycles and direct measurement of fuel before and after, or in a lab.
Still, subscribed. I love your dedication to clear and succinct presentation of info!
Yeah, was gonna say similar. I thought he had some sophisticated fuel-dripping rig set up, but instead relying on the car's own built-in computer, which is constantly estimating the future as much as the past. As such it's just spitting out pre-written data. On the bright side, this is data directly from the car maker, on the downside, car makers lie about their product's mileage all the time, so... *shrug It's good to see the actual testing anyway, as there's no reason for the makers to lie about which method works best for fuel economy. I suspect the whole issue is more about weak engines pushed hard, rather than a strong engine working gently, as it's obvious a strong engine will use less fuel when it's not working so hard. My own experience with economy crap-boxes is they use as much fuel as a better car, cos I have to hammer the things much harder to drive like a normal human.
@@bigglyguy8429 the only real truth is going to the pump and seeing how many miles covered. (Although is this this really the truth? You need the same fuel click off point in each pump. Also, just like your speedometer reads a slightly higher speed, does your odometer read slightly shorter miles? I don't know.)
@@TimpBizkit Well I know for the fun of it I've been driving my stage-4 tuned Hilux Vigo turbodiesel off-road beast of a machine more gently... and people keep driving around me and seem to think they're winning a race! Normally I just drive away from traffic. I didn't realize people were so weird..
I was wondering how accurate the fuel consumption figures were at different RPM points. If the fuel consumption figure underreads at lower revs then the results will be skewed towards low acceleration giving the best results. Without knowing how the fuel consumption is worked out this may or may not be a good experiment. I read a news item in the past month that a couple of different sets of experiments found that accelerating at about 66% of maximum acceleration was the best way (wrt lower fuel consumption) to get up to speed quickly and into top gear. This is an example of the usual mixed messaging that can be found on the internet, same question two different answers.
Yeah, there's no way that thing was good enough to do a test like this. There are so many things that could be causing it to report better efficiency when he accelerates slower, and worse efficiency when faster, and in reality it could be the opposite
Great video idea. Looking forward to watching this in full!
Great experiment, and I was happy to see the theory play out in practice that low RPM and high load results in good economy. One of the things that irks me about cars with automatic transmissions but without electronic throttle control is that you can't really drive them this way: when you open the throttle it will also prefer a lower gear because it thinks you want more power. Still, I do like the way the CVT in my car generally allows decent acceleration to urban road speeds without the engine speed rising above 1500 RPM.
Most autos have a manual mode these days, no?
I hate that about automatics. Almost no hypermiling is possible in them.
@@233kosta these days. But most people don't buy new cars, but 10-15 years old cars, because they're like £1500
Oh no why did you but a cvt?
@@daniel27560 Haha, fair question! My friend was selling it and it was extremely cheap. :) TBH, I remember being curious about CVT drivetrains in high school, purely from a technical perspective, but I'd be the first to admit that they're not very exciting to drive.
Would be interesting to see this in a small naturally aspirated petrol engine, as they tend to accelerate sluggishly in revs under 4000
Difference would be bigger in favor of higher rpms as the maximum torque is often around 4k instead of 1.5-4k like in turbo cars
@@anders2821 for my car itts 5krpm...so should i rev up to that in second gear and then use 5th gear ? is that more efficient ?
i face the same challenge
YES!!!
I’m so glad you did the full throttle/short shift run. That’s how I drive, and a few of my friends who drive v8’s
I passed my test today! I have never commented before, but I couldn't have done it without your videos, so I needed to say thank you. Thank you! Xx
That's fantastic news! Thank you for watching and congratulations on passing!
Passed my first test today with 7 faults lol. Your video helped me a lot. Thanks!
That's great to hear, thank you for watching and congratulations on passing.
I passed my driving test today😁😁been watcing your channel for almost a year now. I will still continue to watch your channel, to become even better at driving : )
That's fantastic news! Thank you for watching and congratulations on passing!
Passed my test first time today! Just wanted to say a massive thanks Richard, your videos have helped so much during my learner driver journey and they would make concepts so much more easier to understand when watching before lessons and leading up to the test day. Keep up the brilliant work and all your effort in videos is very much appreciated :)
That's great to hear! Thank you for watching and congratulations on passing!
Hi Conquer, passed my test today with 1 minor, and your videos made all the difference thank you, p.s will continue to watch them
That's fantastic to hear, thank you for watching and congratulations on passing!
I think for the slowing down part, the efficiency not comes with decelerating slowly, instead cutting throttle early. As long as you let the throttle off, it should change a lot if you're slowing down quickly or not. Lift and coast is the key.
Respect, man, for doing this videos with your engine fully up to temperature! Love to see carguys taking care of their rides! 💪❤️🚗
The theoretical numbers behind engine efficiency is in BSFC (Brake Specific Fuel Consumption). It's basically a 3D plot of engine RPM (X-axis) vs throttle position or torque (Y-axis), and on the "Z-axis" is the amount of fuel needed to generate a certain amount of energy (kWh or MJ). Less fuel is obviously better.
For many engines, this is somewhere within the peak torque band at a decent -but not quite full- throttle load.
Now I don't think many people would use "exactly 80%" throttle to get their best fuel economy, so it's not really realistic way of driving (unless manufacturers would make 80% the new 100% lol). But it is entirely true that petrol/diesel engines only get "more efficient" at higher speeds. The better fuel economy is just in the speed and losses involved..
A lot of manufacturers actually put an efficiency ‘bump’ in their accelerator pedals nowadays where it feels like it stops at about 80%, but you can push past it to 100%.
Not sure if it’s a Renault/Nissan thing but my work van has it & it seems like a really good idea.
Fuel burned accelerating is justified, but economy in my opinion comes from stopping. When you accelerate you convert liquid dinosaurs into kinetic energy, so economy depends on how you use that kinetic energy. While stopping you can let it dissipate in justified air, rolling, engine resistance and so on, or your dissipate it in your brakes..
I would like to see the test where you reset computer at 50 mph, drive for a while and make an emergency stop at defined spot. Then try resetting, coasting to 20 mph then apply brakes to stop at the same spot. And third run try downshifting and braking with engine till 20 mph and then apply brakes.
Most efficient will be downshifting. This driving style could be harder to master in real life conditions, but I get manufacturers claimed range on all cars I ever have driven.
Thanks for the great video! 👍👍
Something that genuinely works especially on older cars is to drive very conservatively on a daily basis with an occasional thrash to help clean out the engines carbon.
My old VR5 bora was averaging 28mpg and after a 4 hour hard thrash on a day out with a convoy group (with a double shot of engine cleaner) I was then averaging 34mpg.
One thing to consider that is harder to test as rigidly as done with this video: When I accelerate hard(er) I reach my cruise speed faster than accelerating softly, that means I can go for a slower cruise speed while keeping the same average speed as the softer acceleration. Combining that with the high-throttle, early shifting approach, which gave a good balance between economy and accleration in your test, might still be the way to go.
I think it’s important to take the air fuel ratio into account. Many vehicles will tend to push more fuel than the perfect AFR when the pedal is pushed all the way to the floor, which means that there is more fuel being dumped into the combustion chamber than is needed for the air to react in an optimal way. This means that combustion isn’t quite as efficient. For half throttle or less, many cars will typically still keep the AFR around the optimal 14.7:1 ratio, which allows the engine to combust the air fuel mixture as efficiently as it is able to. When not accelerating hard, it is easier for the vehicle’s ECU to keep the AFR close to the most optimal ratio.
The only logic I can think of is the reduced pumping losses when your throttle body is wide open. But that alone does not make high acceleration efficient. Wheel slip (much of which cannot be felt), high RPM (more heat loss and less efficient combustion), and the likelihood of running into some kind of obstacle requiring braking sooner (aka, over-metering fuel for given conditions) all make accelerating quickly nowhere near as efficient as gradual, linear acceleration. Love your content!
But if you still shift relatively early and have enough distance to fully lift and coast, a hard-ish acceleration should be the most efficient option no?
As others have mentioned, a lot of turbocharged engines need a rich air-fuel mixture when the engine is under boost to keep detonation at bay. At the same time, I have my reserves trying the high throttle, low RPM shift on a turbocharged engine, given the risk of low-speed pre-ignition(LSPI).
One info that would be nice to see is the intake manifold absolute pressure(IMAP), or more simply, just how much boost/vacuum the engine is under. Half throttle might be okay for a layman's understanding, but for more technical folks that know every car has different throttle mapping nowadays(sometimes changing the driving mode will change the mapping within the same car), it's a bit too general. Is half throttle putting the engine in lighter boost, no boost/vacuum(almost simulating full throttle in a comparable NA engine of the same displacement), or a slight vacuum? People with an OBD scan gauge can use this info to their advantage.
Then there is the elephant in the room: you are reading the estimate in the gauge cluster. Now I understand that it's unrealistic to fill up after every run and longer drives would introduce more variables to throw the test off, but realize those things are sometimes pretty wonky. The one in my Camaro for example can be anywhere between -2%~12% better compared to the actual fuel efficiency(using miles driven and fuel filled up from the receipt). It tends to be 10% better than the estimate but that's not always the case. Mazda ones are typically a bit more trustworthy in my experience, but those also sometimes show worse efficiency in the gauge cluster than the actual mileage.
Oh well, I don't really drive for economy myself for the most part. My fun car with a stick shift is a V8 so I drive for smiles per gallon, and my other beater is an old automatic. I do somewhat aim for slightly better economy for it but other times, I let my silly side take over and let VTEC kick in, yo.
AEM sells a great AFR and boost gauge (failsafe) and I have one on my turbocharged car. I think it would be most efficient to give it about 70% throttle and change at 2500-3500 RPM depending on your car while being smooth with the throttle movements, making sure not to lug your engine or run rich AFR. I could do this but my car's MPG readout updates quite slowly and it would be hard. I haven't tested with this car but my previous car's MPG estimate was spot on, albeit with slightly larger tires than stock. V8 honda? 1st gen NSX?
"smiles per gallon" is exactly how I drive my car on a twisty B road in England. Its only a 148bhp Focus but its fun when let loose. Who cares about economy when youre having fun!
@@CrazyInWeston I wish there were fun roads near me, there's a road with 1 good and 1 decent corner near me. Little elevation change = few curves. I love Texas but I have not found any fun roads that I can safely/legally go fast enough to have fun on.
@@johnhunter7244 Prob why on the worlds "greatest driving roads" Jeremy Clarkson said it wont be in the USA because "everybody does 5mph" he also saw said it wont be Australia because "its full of Spiders" and not Africa "because everyone rides an ox" or the Middle east cos "the Americans will shoot you"
The instrument cluster reading is generally quite accurate. Its accuracy is by product of the ECU needing to very precisely meter fuel into the engine to ensure target AFR and emissions compliance.
Thanks very much for this. I'm actually amazed by my Mazda 3 2016 that gets 8.4 L/100km with fairly gentle driving with slightly aggressive episodes here and there. Not ridiculing your video though, not at all, but it's thanks to this that I can appreciate my car even more, so thank you genuinely.
There has to be a balance between engine RPM and efficiency, which is offset by time spent at lower speeds and offset by drag coefficient at higher speeds. Really interesting video and well thought out, thank you for sharing
Passed today with 4 faults. THANK YOU SO MUCH FOR EVERYTHING.
That's fantastic news! Congratulations on passing!
Electronic fuel economy gauges are never right. Measure at the pump.
Here, accuracy is less important than precision.
I just passed my driving test first time this morning I thought I'd come here and thank you for your content it definitely contributed to my pass, Thank you!
That's fantastic news! Thank you for watching and congratulations on passing!
I think the idea behind smooth acceleration is most important in cities when you're starting and stopping a lot. Going from 50 to 0 burns twice as much fuel as going from 25 to 0. Going slower overall rather than going right to the limit every time you move saves fuel, you're just going to waste it all anyway when you hit the brakes and turn that precious energy into heat.
Actually, going from 0 to 50 is significantly more energy usage than 0 to 25. In fact, it's at least 75% more, even if there wasn't drag or friction involved.
You are absolutely correct about higher speed = more energy needed, and that having to artificially brake just throws that energy (ie money) away. However it is even worse than you think - Kinetic energy is proportional to the velocity squared, therefore the ratio of energy needed for 50mph and 25mph is 50*50 to 25*25 ie 4:1
I had fun with this video, but this is a very complicated issue and I don't think it can be covered in a few minutes. but hey entertainment is the aim here so good job. :)
Very interesting video, makes me want to do my own tests. One thing to note here is that you are changing gears at different RPM's for each throttle level. Doing tests where you shift up at the same RPM, while changing the throttle amount may show different results. In order to complete it you could even do the same for other RPM levels.
That being said, on its own it is already interesting to see the difference between an aggressive driving style (more throttle, shifting later) and a relaxed driving style (less throttle, shifting earlier) is already a good real world test
This was a surprising result to me, as my driving instructor here in Finland (almost 15 years ago) taught to us that the most fuel efficient way to accelerate is to reach your target speed as fast as possible (safely and reasonably) and then start cruising. I always thought it sounded a bit weird considering the high RPM:s but nevertheless believed my instructors word. One thing that popped to my mind was that maybe this was true back in the days when cars had carburetors in them? As my instructor was quite an old man he could've had outdated views on this subject.
Thanks for the video, cheers and have a great day!
Carburettors were even less efficient at low loads than modern engines, so in the past that may have been true.
Solid video! My whole driving style is based around driving it eco, but at the same time not being a grandma on the road. I still drive the speed limit and try to set an example, however I rarely accelerate slow, even if it might cost me a bit extra fuel. And I am not talking about driving it like I am racing either. Starting off a traffic light or stop sign I accelerate half throttle and change at around 2500-3000 RPM (maybe 3500 if I am feeling a bit rowdy) and go trough gears 1-3 and just accelerate to the speed limit (50km/h) and just drop it into 4th gear, rarely into fifth if I am driving on a wide and straight boulevard. My reasons being:
1. I don't want to feel like a snail around people and angering them (I've driven behind people which hold me in 1st gear for a solid 10 seconds and and the car jerks around it's a bad experience)
2. I like the sound that the cone filter makes when I press the pedal half way trough so it brings me pleasure when I drive around instead of it being a chore.
3. My throttle is cable driven so I get most of my torque with 1/2 throttle or even 1/3 throttle, compared to drive by wire.
4. I am hoping it reduces pumping losses and helps me get up to speed quicker and try to have good brake specific fuel consumption so I have more time to cruise.
5. It's a 98 civic with a small 1.4 liter N/A engine. Although I messed around with it and modified it it still feels in it's happy zone above 1500-2000 rpm, bellow that you feel like it's dragging it's feet. Hence why I rarely let it fall bellow 1,5k. If I dip bellow that I simply rev match and downshift. Small turbo cars or cars with bigger displacement that have good low end torque allow you to accelerate easier on lower revs, but small N/A engines lack that so you need to rev them a bit more to bring them to life.
With all that being said most of my slowing down is focused on anticipation and letting the engine slow down on it's own if you are nearing a red light for example and there is traffic ahead. Even if you accelerate gently and don't speed to much, most of you economy is lost when you overuse the brakes. Hence why I was getting good economy before even when I was pushing it around (Around 5.2/5.3 L to 100km with most of my trips being 80-85% rural driving and 15-20% urban driving give or take). All in all it's really the best of both worlds. With moderate throttle and anticipation you still make the driving experience fun and engaging while maintaining good economy + the added benefit of reducing the risk of people behind you getting impatient and doing reckless overtakes and all that. You can't escape them completely, cause some people will always be "in a hurry" but it reduces those encounters quite a bit. Cheers!
Awesome, i also have '98 Civic with 1.4 L engine, 90 hp. Sports exhaust and DIY air box so it's pretty loud :D
Love driving to and from work.
omg youtube, stop recommending great channels, I DON'T HAVE ANYMORE TIME TO WATCH! GJ man!
The one where you accelerated briskly to 3,000 RPM seems to be the best of both worlds. Economy was decent, and you may be able to merge onto a highway if the slip road is one of the longer ones. But, as said in the comments, it doesn't make that big of a difference in the big picture, so obviously safety over fuel economy, and a bit more progress as a bonus.
The run where he floored it and changed gears early, I think he got hood mileage because you spend a decent bit of that time in neutral shifting 5 times. Regardless it’s not healthy for the engine to be flooring it under 2k, especially turbo charged ones. Mine throws misfire codes the moment I get into boost under 4k if not fully heated lol.
@@kunfupandarofl yeah, true. It would lug the engine, wouldn't it.
BMW did a study some (15?) years ago. Full throttle, but all shifts at 2,000rpm. Lowers pumping losses. Works well on my Cooper S, added 5 mpg to average in around town driving. More fun, too.
Very interesting findings, gentle is the way to go, but not very fun :P I really do wonder how a diesel would fare here. Not sure if this particular engine does it, but some (maybe they all do it, not sure?) turbo petrols at high loads (full throttle) and low rpm tend to run rich to prevent knock. No such thing in a diesel, since it can basically run on fumes without worrying about knock and air/fuel ratios, so I wonder if there would be more of a benefit of hard acceleration (70-80% throttle seems to be the general rule of thumb on some TDI forums i've read) and shifting at let's say 3000 or wherever the peak torque ends and not redline at 4500.
In my experience diesels tend to be more economical in higher gears as long as the gear isn't too high. I may test this in the future though.
@@ConquerDriving yeah disel works great at 5-6th gear about 2k rpm u can get about 4.5 L/100km with 1.6 enengine but lower speeds take a lot off fuel at city driving,specially with higher rpm
Best thing to do is to look at brake specific fuel consumption (BSFC) graphs for your car (or plot some yourself using OBDII software). Most cars have the best power:fuel consumption ratio relatively low in the RPM range, just below peak torque, at around 60-80% throttle position (depending on the load). Every car is different.
One on-the-road hypermiling technique is to accelerate close to this peak power:fuel ratio regime until you're at your target speed. OBD2 software live readouts and practice can be used to get good at this.
There are tons more hypermiling techniques I'd love to see you test out, such as pulse and glide. This is where you take advantage of the better efficiency at higher loads by accelerating harder then coasting (or partially letting off the throttle for an on-the-road technique that's usable on public roads) then repeating, rather than holding a set speed.
Another hypermiling technique I'd love to see you try would be invreasing throttle going downhill rather than uphill. This is where accelerating downhill is more efficient (since gravity is helping you), then allowing the car to decelerate going uphill (with some even coasting when going uphill). Cruise control basically does the opposite of this by trying to maintain a fixed target speed.
Given how close the results are between normal and hard acceleration on a turbo engine I feel like an NA engine might actually do notably better as a result of not needing nearly as rich an AFR for cooling.
I think so too.
so how do i properly drive a non turbo engine ?
@@marvin2678 depends on your definition of properly.
IMO fuel economy is the least important thing to cater your driving style to. I would drive either engine mostly the same. Don't rev too high while the engine is cold. Once it reaches operating temperature, you should not be afraid of getting near the redline on acceleration. This does not hurt the engine and in fact helps keep it clean.
Modern manual cars will tell you to upshift too much, too soon, for fuel economy and emissions reasons. Automatics just plain force this on you. But this can get you into lugging the engine and bad throttle response situations. Don't hesite to downshift when you expect to load the engine soon, even just a bit. It'll greatly increase the general feeling of driveability of the vehicle. Both turbo and non-turbo engines have an operating RPM from which upwards they will start to feel responsive. This is where you want to be when you start to accelerate or climb a hill. Only lower engine RPM by upshifting AFTER you reach low load and constant cruising speed. This point will vary from engine to engine, turbo or no turbo. Try to find this point for yourself by accelerating in, say, 3rd gear from low speed to redline. Somewhere along they way, like maybe 2000 RPM for example, the engine will start to feel and sound "happy".
The only real difference in feel between turbo and non turbo engines is how and when the engine transitions from unhappy to happy.
Getting back to fuel consumption tho, the turbo engine will use more fuel in the happy area, despite being physically smaller than a non-turbo engine with the same horsepower output because it uses extra fuel for cooling of the combustion mixture. The non-turbo engine will use more fuel in the unhappy area because it has more internal friction. I have a personal preference for the latter because I drive a lot in the happy area. Non-turbo engines also just feel and sound better to me.
The problem with this test is that it's not isolating for average speed. The gentle test has a significantly lower average speed, so this test really just confirms that lower driving speed is better for efficiency.
Very true. But if you accelerate gently your average speed will be lower in real world driving also. So it's still relevant.
The run where you changed up late but didn't accelerate hard sounds to me pretty similar to people who just won't press the gas pedal more than a certain amount, so going up hills they stay in low gears for a really long time because they don't want to give it more throttle to get up to speed.
Going up hills I kind of just floor it most of the time to get up to speed then let off and coast up the rest of the hill with the momentum
@@gotworc that could be another interesting comparison of fuel usage : most efficient way to go up a steep hill.
Really happy to see the half throttle one getting those big gains, I don't know why but I've been doing that all the time lately. A proper financial decision by accident!
Being a family man and driving in Bengaluru, I'm criticized for slow acceleration. Earlier I'd claim it was because I love my family and accelerating slowly gives me better control over a chaotic sutuation (bikes + cars+ autos swarming all over when the lights turn green. Now I can say it helps with fuel economy 😀
Accelerating gently not only helps with fuel economy, but it also increases the engine lifespan. It has many benefits but accelerating too slowly can be a problem. It can cause the traffic flow on the road to slow down and may also cause clutch wear and tear if you hold it down for too long (especially partially).
Just please don't be one of those guys accelerating so slow on the ramp that they merging into the highway at 50kph its not safe for you or the people around you.
I really like how you adjust fuel consumption to all types of measure
It would be interesting to do the test with a NA engine. I think the torque from the turbo is doing god's work here :)
I would like to test an NA car also.
@@ConquerDriving I would like to see the difference too. My brother and I both have Ford Fiestas with direct injection and 5 speed manuals and 15 inch wheels. Mine has the turbo 3 cylinder but my brother has the NA 4 cylinder. He has far less torque down low so his gears are far shorter than mine. My economy should be better during acceleration as I can keep my engine speed lower but on the highway economy is almost the same even though his cruising rpm is higher. Would be interesting to see just how much turbo vs NA engines vary across a range of engine and driving speeds.
Actually a further distinction needs to be made: a small turbo does indeed increase torque at low RPM, whereas at high RPM it has to open the waste gates (which removes much of the efficiency benefit). So this favours a low-RPM driving style. At high RPM it's hardly different from an NA engine - in fact rather less efficient, because the engine itself will generally use a lower compression ratio.
By contrast, a large turbo doesn't even spool up at low RPM, which ruins both torque and efficiency. This is one reason powerfully turbocharged sports cars can't be efficient even when driven at low speed. However, a small engine with comparatively big turbo can actually be quite efficient, even at high RPM - while being completely useless at low RPM.
thanks for confirming my theory. been driving professionally for 3 years, had debate with other drivers which driving style uses the least fuel. i think I can say I won the debate with this video. i drive gently, but I still get to the destination on time. that's what matters anyway, being on time.
plus the strain on components in the vehicle and safety
Remember that naturally aspirated engines are happier at high load low RPM than a turbo car
i passed first time yesterday with 0 driving faults thanks to your vidoes!
That's fantastic news, thank you for watching and congratulations on passing!
It can make traffic flow better though
Yo. You literally taught me how to drive manual transmission. Thanks mate
I have an idea why this is happening, not sure tho. The experiment you conducted shows that gentle accelaration is the way to go for turbocharged petrol cars. And i say that is expected since almost all turbocharged cars put their max torque around 1500-2000 rpm band. But lets say you are driving a naturally aspirated car which most of the give their max torque around 4000-4500 rpm, it is best to full throttle and reach that RPM band. After reaching desired speed, you can drive at normal rpm's.
Interesting this makes lots of sene
Well, that explains a lot! I have a 2020 Toyota Corolla hatchback with a 2.0 liter NA engine. I've noticed that I get far better gas mileage when I really get the engine revving before I change up a gear. Like, 4,000 rpm, as you mentioned (with the exception of 1st gear, I change up into 2nd as soon as I can). My car's normal rpm is 2,500 or so. If I change up at 3,000 rpm, I get fewer mpg versus waiting till I reach 3,500 or 4,000. I had long been wondering why I get better mpg when I accelerate more aggressively, and now I know why!
I would like to test an NA engine, but as I understand it, wide open throttle at low RPM in an NA engine will have a higher efficiency as there are less pumping loses and the fuel mixture will be less rich than a turbo.
Baseless claim
I love that the car in question is unheard of to me.
Amazing test, thank you for all the detail.
The only info I was missing is the time it took to do the distance, not just reaching 50mph. (though I guess one can measure it from the video 😄)
Hello.
Very nice series of tests.
I would like to chime in with one remark.
We have three variables there.
Fuel efficiency, time of travel and fuel consumption.
The tests you did are focused on fuel consumption (the previous one), fuel efficiency (this one) but you are missing the last one, The most important one.
Travel the distance in specific time and then compare the fuel consumption.
The reason why you want strong acceleration is mainly the time of travel and reasonable fuel consumption.
The idea behind it is: At 50kmh you have lets say 7l/100km fuel consumption. You want to reach that speed quickly and then maintain it.
If you accelerate slowly then you effectively ride at lower speed and that is by definition more fuel efficient (with some exceptions of changing gears etc) but that slow pace will result with much longer travel. Also accelerating slower can cause you to miss green light and will have to accelerate again and idle on the intersection. But thats a different story.
So to compare quick accelerate you would have to have second run with higher max speed and match the travel time. And then compare the fuel consumption.
So that are my 2 cents.
That's a good point. This video is not considering journey time though, it's just what's the most economical way to get from A to B. Journey's have a fixed distance but the time is not fixed. I understand engines are more efficient at higher loads, maybe a video for another time.
Remember that accelerating hard at low rpm in higher gears is bad for your engine
i have never touched a manual in my life, but if you want to accelerate quickly like that, then you just drop a gear and start your shifting and accelerating from that lower gear, right?
@@willmcclard206yes
What about for a cvt?
I hate it when how I think things are is shattered by a youtuber. good video, thanks for taking the time for the experiment
Turbochargers are inherently less efficient at higher boost (at least for gas) so i'd be interested to see how a non-turbod car would fare
I'm interested too.
I drove a 1.4L Clio for a few years before getting my 1.4L TSI Ibiza, coincidentally it looks like it has the same engine as Richard’s Leon in this video.
From my experience, the slower (non turbo) Clio was much more forgiving on full throttle. I could spend a good portion of the journey giving it all she had (which wasn’t much) and not have to think twice about the MPG which usually came out around 39-45. It never strayed away from this figure regardless of how much or little I tried to drive efficiently. I guess you could say the “spikes” in consumption were smoother.
The Ibiza on the other hand varies much more. A gentle drive can see me around 48-55 MPG. A faster drive could drop the MPG right down to 38 which is a huge difference.
I’ve found the turbo engine to be more fuel-efficient but *only* when I wanted it to be. By comparison it drinks a lot faster when you want that extra performance.
@@joshuatk59 What's the difference in power? did you factor in braking? If you are driving faster and braking from higher Vmax then you are also gonna put more energy in to heat.
Skoda Fabia 1.6 16V (77kW) non-turbo petrol.... I work in town 18 kilometers from where I live, there are 6 villages on my way to work stuck together with just few km between each of them...
I can get around 5.8-6,1l/km riding 50km/h in 4th gear (around 2000 RPM), giving it full gas after leaving the village shifting into neutral at 80km/h or 100km/h (a bit over but my tacho reads +5km/h) and cruising into another village....
I can get around 6.1-6.7l/km riding the same speeds, getting feet off the gas and leaving it in the gear (I have my spots to ease off and to get around 55-60km/h entering the village (city speed limit is 50 +-10%) but not being in the neutral literally half the time... Accelerating to around 70-75km/h and shifting into the 5th at around 2500ish RPM and being a bit gentle on the throttle accelerating all the time...
And by the way, look at that... the car in video suggests you to shift into the next gear at around 1800RPM, which just looks silly in car with TURBO.... jesus
@@joshuatk59 turbo engines have always been more thursty in the town traffic compared to NA engines, but in comparison the turbocharged engines have a nicer power delivery and better economy if you drive smoothly
That was definitely an interesting video. One thing for anyone who was saying that accelerating harder should have resulted in the same/better fuel economy, because ICEs are more efficient at higher loads - That may be true in theory, but in practice I think there are two things that you’ll find will cause worse economy at higher throttle. The first is called transient throttle enrichment - it’s a part of the ECU programming that adds extra fuel when the position of the throttle changes rapidly (as would happen during a gear change in a manual transmission car). Adding extra fuel will worsen fuel economy somewhat, but it keeps the engine from running lean and potentially detonating. The second is that at higher loads, engine tunes tend to target a richer AFR or
engines are more efficient at higher loads, as long as you dont get to the fuel enrichment range
newer cars use numerous techniques to decrease the efficiency gap between high and low loads
a good example on this is the egr valve, putting some exhaust gasses back in the cylinder means you dont need to throttle the air intake as much, which means less pumping losses, which in turn gives better low load efficiency
however, there are numerous reasons why accelerating hard and then cruising is worse than gentle acceleration
an obvious one is getting up to speed faster and then cruising results in more aerodynamic losses
one that is not as obvious though, is the efficiency thing. high load (at low rpm) is indeed more efficient, but when cruising you are under very low and inefficient load. gently accelerating is more efficient than cruising because you stay on a medium load. if you look at a bsfc chart and find 3 points that represent these 3 scenarios, running a few calculations will show you that whole story
I think you misunderstood. Your engine is most effecient at full throttle AND LOW RPM. Shift at 2k and you'll see the difference.
There are a few things to point out here.
First of all, it all depends on how much work has been done. The faster you drive, the more work you are doing by pushing the air, as the air has to accelerate much more quickly to get out of the way of the car. So the faster you accelerate, the faster you actually drive through the same route but you also do more work by pushing more of the air out. Unless you move in vacuum, both the movement of the car and the movement of the surrounding air is the work done. That's why it's very hard to measure this on the road, you'd need to test this on a dyno to equalize air resistance for this sort of test. Otherwise you have two variables, engine efficiency and the amount of work done.
Then we go into efficiency curve of internal combustion engines. It is 2D map. One dimension is your rpm, another one is your engine load (how much pressure is applied to pistons) and the result is the amount of fuel used per hour per brake horsepower. Now if we are talking about a constant amount of work to be performed, then you want to get to the sweet spot that has the least fuel usage producing the expected power. Well, we can't do this though on the whole road. By changing your acceleration you will change the load while accelerating but as soon as you start cruising, you have only so much load and you can only pick the rpm. Well, there's yet another thing you can add to the graph, those are total power output that makes it easier to read it. Here's the example on 2016 Honda 1.5l engine: i.imgur.com/TSHt76e.png
This one is actually marked in BTE in % which means "how much energy from fuel is turned into work". Higher is better. It can also be translated to the other unit but we don't care about the unit now. Here you can see that the sweet spot is at 40-60kW somewhere between 3500-4000 rpm. This gives you the best fuel efficiency. If you accelerate harshly and use over 60kW, you can see that you enter much less efficient range. If you accelerate too gently, you may only use 20-30kW and you are also in a bit less efficient range. The worst thing you can do is accelerating gently while staying on high RPM. It's even worse than full throttle.
The engine load depends on the actual load (hills, wind, car weight, trailers) going through the gearbox (the faster engine rotates, the less load it has per rotation) and how much work the engine is trying to pull out. So the more throttle you use, the more loaded it is which turns into faster acceleration. Accelerate gently and you reduce the load on the engine which may go into less efficient range. Now the acceleration you are feeling is the output in kW which can be achieved on multiple gears. You'd have to figure out where is the 50% acceleration in your case. Can be done easily on dyno, can be done by feel on the road when you get used to the car. Now you know how does the halfway acceleration feel like, you should use the gear that will keep you accelerating around this 50% with almost full throttle. If it does not accelerate, you have too much back pressure in the engine, it's inefficient (starts vibrating too). Keep the revs high enough to be able to fairly easily accelerate and nothing more. And use almost full throttle. After all it is somewhere in 50% of rpm range which gives you roughly half of the power output when you floor it. This diagram also roughly translates to the torque curve of your engine. You want to be on the highest torque range while keeping quite high load on it, this will put you right into the ~40-60% rpm with roughly half of the peak power.
This also explains why diesel trucks are much better at towing. Towing increases the load even 3 times but the typical truck engine runs barely at 20% power output without the load. It's made to do the work and when you start towing, you enter the much more efficient range while just cruising (you loose efficiency while accelerating). And that's why EV is so bad at towing too. Diesel trucks get more efficient with increased load, EV is already very efficient and increasing load can increase the energy usage by 3 times (cutting your range into 3rd).
Anyways, low rpm acceleration will usually put you into high load scenario and even if you use a little throttle, it's all it can do. It runs at high load and low revs. Not that efficient. The mid rpm acceleration is the most efficient range given that you can use all of this power by quickly accelerating. This will give you the best fuel consumption per work done. Now if you calculate this based on the distance traveled, it might not be efficient because air resistance adds a lot with the speed. Slower acceleration means staying longer in lower resistance. If you calculate it based on the time it took to travel that far, it might be actually a very good indicator.
From my experience in city driving, the best fuel economy is when you stick to this acceleration pattern (high throttle, mid rpm) and use engine braking as much as you can. In the city it usually means accelerating to the speed limit quickly and slowly slowing down with the engine when you approach intersection or another traffic.
It would be interesting to see how naturally aspirated cars would compare in this test. I wonder if the results would be different considering turbo petrol's run richer under hard acceleration yet support the engine better (more fuel efficient) at low loads.
I am interested too.
I have an eighteen year old, SLK 350. Sport returns a better MPG than comfort mode. I've not tested as exact as this but slow speed destroys my MPG. I'll experiment more at a later date,
@@JohnPaulFoster I'm not sure myself about the sport/comfort thing. I'm not surprised you get bad mpg showing slower/ in traffic etc because you've got a big 3.5l V6. Bigger engines like yours would be at their most efficient in top gear on the motorway, with alot less of a penalty for going 70+ mph compared to smaller NA engines. A bigger engine doesn't have to work/ rev as hard for faster cruising. Due to its size it will burn more fuel in the slower regime because the extra capacity is largely wasted.
Another awesome video that'll help us save some fuel specially when its cost is rising each day.
75% engine load @1,800-2,500rpm is the target for me during acceleration. My car is a 1L 3 cylinder Aygo though so it's pretty slow at 75% load in that rev range... I get Around 72mpg.
Goddamn, with a petrol engine? Thats awesome MPG
@@BasedMan Light car, really small modern engine. That's the recipe.
For that MPG result, is that In town, combined or motorway?
I accelerate quite gently but still acceptable on roads and change at the earliest point possible (usually 1800-2000rpm) get about 55-60mpg in town (where you constantly accelerate and slow down) in my 1.4 turbo diesel hatchback.
@@squeakers27 my commute is around 75% A roads and 25% city. I'm rarely ever out during rush hour though. Funnily enough though I get around 80mpg in city driving and 70mpg on A roads (at ~50mph). My partner has a 1.9 diesel Skoda Octavia and I find it gets opposite results, about 50mpg in the city and around 75mpg on A/M roads.
My best ever full tank was this year around the time of that 40°c heatwave at 79.1mpg (it did 494 miles and used 28.4L). I was taking it steady though as the cooling system on the car was struggling to keep up when ever I used the throttle. It was probably unnecessary really as the fan never kicked in anyway but I did see allot of broken down cars on the drive to work that day!
I figured as much but never took the time to whip out the pen and paper, good job. I regularly get 30-31 mpg highway with my 02 C230 Kompressor. Ill cruise around 90mph no problem, I let anyone else drive and its usually 24mpg (on the same trip)and they overall go just a bit slower at cruise, but really stomp throttle immediately after deceleration. Their reasoning always was that it used less fuel and could not be convinced otherwise. Theres also something to be said about listening to your transmission, some people really make the tqc work harder than it needs to lol. Glad to know I'm not crazy.
Short answer: no
Long answer: if you want it to, who knows. A jaaaaaaaag is by all means less economical than a SEAT Leon…
Ive always been gentle with accelerating and braking not so much for fuel economy but just to take it easy on the engines. Does yield great mpg results because of it!
Who in their right mind believes that logic? Acceleration uses the most gas so driving with the throttle wide open will use significantly more gas than doing gentle accelerations. Braking only wastes gas if you're constantly braking to slow down then to accelerate immediately after braking
Well the idea is that since acceleration uses a lot of gas, you want to be doing it for as short duration as possible, while taking advantage of the efficient bands of the engine, so high load, low rpm - around peak torque. My theory is that this engine ran rich to prevent knock when he was full throttle and shifting at 2k, and there would be more advantage in a diesel, where knock isn't a problem
@@EndstyleGG that would work for a tuned engine or high performance car from the factory. Most of us that drive the grocery getters won't have any advantage to doing hard accelerations cause those are mapped to just dump fuel to keep up with the rpms since the injectors are small.
@@Kisame663 cars tend to be most efficient at around 50-55 mph.
The reason people think it is better to accelerate faster is because you would be at the most efficient speed for longer on the same piece of road.
they are actually correct to an extent but can overestimate how fast they should accelerate.
hence the purpose of the video.
@@alfaruuto5182 that I can agree with, but it's wild to me to think people believe hard accelerations make any kind of sense outside of race applications when you're trying to save gas with these bonkers gas prices.
Probably if you accelerate like 5 times slower than "very gentle" run youd probably get worse economy, but again maybe and no one will ever do this, so slow acceleration is the key.
I think manufactures should make BSFC maps public. And maybe even add a speed-drag chart for each car.
thanks for the "unreasonable" tests at the end
Thank you everybody for pushing their car so hard you guys save me so much money in body work I go to my local pull apart and get fenders and hoods and stuff for nothing because you broke your engine while I continue to drive my 1962 Corvair and make money thumbs up continue to break your lease agreement please it makes me cash flow... Sarcasm in case you didn't know
Thank you for adding L/100 km conversion for non US or UK watchers, we use L/100 km one my country. 👍
as a hybrid owner for quite some time, I can very much confirm your suspicions. Accelerating at high speeds and stopping last minute tanks your mpg. In a hybrid taking your time and slowing far ahead of time is massively beneficial to your mileage.
You've missed the actual magic combination.
For gasoline engines use full throttle but, take a look at dyno graph at maximum torque:
For N/A you'll see it peak and you want to use that peak both slightly after and slightly before it, so switch gears accordingly.
For turbo check where it starts to be close to maximum and switch gears so that it doesn't fall below that.
Keep throttle pegged when accelerating as it will amount to maximum air put into engine, ECU figures the gas required and engine is less efficient and less powerful = less fuel at lowest rpm, most efficient, moderetly powerful at mid rpm and than it just dumps fuel and is most powerful at highest rpm.
With N/A VVT 2.0 you can expect smth like (fuel per 100km/power/RPM) 5l/15KM/1000RPM, 9l/130KM/4000RPM, 20l/150KM/6500RPM.
Would be interesting to compare different methods that have the same total trip duration: accelerate fast(ish) and cruise at a lower speed or accelerate slowly and cruise at a higher speed. And all that for as realistic a trip as possible: several accelerations and decelerations etc.
For anyone interested, I have a 2016 Honda CR-V with the i-DTEC diesel engine and AWD. I've found the most economical way to drive it is to accelerate not too slowly, but somewhere in between that and briskly. The auto gearbox seems to choose the gears effectively and it's most economical at around 50mph where on a continuous run, it'll do well over 50mpg.
For whom only interested in the results and according to the video answer to the questions is NO. Thank you for reading and saving yourself time.
Nice heel and toe and 13:56 bud. Love seeing good driving techniques. Nice vid btw. earned a sub
If you try this same experiment with a very efficient Electric Vehicle it might actually be more efficient the faster you accelerate as long as you take the same amount of time to cover the same distance. Work done accelerating varies with the square of change in speed. If you accelerate quickly you don’t have to reach the same top speed to have the same average speed.
Even before clicking on this video, and not even having any practical driving experience, I could tell you that the gentler your acceleration, the better the efficiency. How would I know this so accurately _a priori_ ? I have good knowledge of this field of physics called thermodynamics. Thanks to your video, it is comforting to know that my knowledge still has any use at all in this broken world as it is right now.
I think you are right about the physics side of things, but it's important to know that engines run at different efficiencies at different loads and revs. So even if more energy is needed to do something, it can sometimes be more economical if the engine is at an optimal state. Is it true that in the world of physics, accelerating more quickly uses more overall energy than accelerating more gently to the same speed?
@@ConquerDriving As far as pure thermodynamics are concerned, any device that transduces energy or produces mechanical work will do it in the most efficient manner if the process proceeds in the so-called equilibrium mode, which means making the process a sequence of equilibrated states. In simple terms, making a process proceed slowly grants more time for the parts of the machine to come into equilibrium at every moment of its operation. Therefore, a slow process in general is closer to equilibrium mode, making it more efficient. I acknowledge that exceptions for specific mechanisms under specific modes are possible, but looks like a petrol car is not one of them.
Passed today with about 15 hours of lessons these videos helped so much lol
Wow, that's not many lessons at all. Congratulations on passing!
13:48 using heel and toe while driving very slowly. That's a racer instinct
The increased wear on the transmission of accelerating quickly is also something to consider.
that was a great test. my personal guess is that the main reason, why it's usually worse to quickly get to the cruise speed is that you get into a position of more air resistance faster then
That's a good point. But I use significantly less fuel once I'm at the higher speed and no longer accelerating.
most underated channel on the platform. get him 10M subs!
Thanks for doing this test, I've been wondering what the difference would be for something like this for a while!
I think a bigger factor for electric cars in town vs motorway - or at least, a factor at least as big as work done by the motor - is brake regeneration. Driving around town and braking gently will recover a lot of power but, when on the motorway, you're probably more likely to engage your brake discs needing to slow down more rapidly and burn energy away rather than recover it.
Breaking is a big fuel consumer too for the energy spent to get up to speed only to lose it again to the heat generated by the breaks, lifting early does save gas.
Gently accelerating and decelerating is the answer to an efficient and comfortable drive.
Looking ahead of the car and a 360 situation awareness helps as well.