Authorized Personnel Only - How to Start and Sync a 400,000 Watt Turbine Hydroelectric Generator

I work for a very large utility on the west coast in their hydro electric division. We're not allowed to show anyone the insides of the powerhouses and how they work (no public photography), so this is so cool that you are able to make these videos and show people how amazing Hydropower is!

During 1960s when U.K. was building big coal fired plants they had a few synchronising accidents.
One unit was grid connected 180 degrees out of phase (probably an instrument fault we don’t know) the rotor was spat out of the stator and thrown out of the building. Your 100 tons of rotating mass will always fail when hit by the grid. Thankfully nobody was hurt.

I think this finally explains a story my grandfather told me many years ago about his time working in the power plant of a cement factory in the middle of the last century. He was bringing up a generator off a weir on the river and described a dial which I now understand to be a synchroscope. Grandpa messed up very badly while trying to get it in sync with PP&L and said the whole plant shook as for a few seconds the generator looked like it was trying to rip itself out of the ground. He saw some of the big bosses running down from the front office with what he was sure would be his pink slip. Grandpa managed to spin the generator back up and get it synchronized just before they arrived and then made a big show of playing dumb, walking around and inspecting all the gauges. With everything humming along perfectly, the bosses just shrugged and went back to the front office, leaving him to, and with, his job.

I love the excitement at the end. Never lose that youthful passion.

"Somewhere there's a bass fisherman half a mile up the river, wondering just what the hell is going on, as some idiot is learning how to bring a power plant online"

Back in the 80' when I was studying electrotechnics at the local Technical Univeristy in my home city of Łódź in Poland we students had practical exercises in the lab. One of them was to show us how to synchronize a generator with the grid. There was a 3-phase generator driven by a DC motor whose speed could easily be controlled. We had to bring the frequency of the generator as close to 50Hz as possible and then watch the lamps trying to fine tune the rotational speed and effectively the frequency to make the lamps blink really slowly, like once in every 2-3 seconds. After achieving this we had to wait for the moment these lamps got dark and instantly connect the generator to the grid.
There were circuit breakers so there was no danger of the generator falling apart in case of missynchronization.
That lab was a big fun for me.

as a PhD student in power systems, your videos keep me alive as i write my thesis

I kid you not: here in Finland, in 2016 a drunken guy broke into a hydroelectric power plant and started pressing all and any buttons he could find. The end result was one blown up 1.5 megawatt generator. I'd love to have seen that. He should have taken a time machine and watch this video I guess!

Exactly what I needed to know! :) I was struggling to start my 400,000 watt turbine hydroelectric generator after a reboot. I should mail it back for a refund.

I always enjoy watching people love what they do. My wife catalogs art for an auction house, and she loves it. I am a watchmaker, and I love it. We were both 40 when we started on these respective paths. Don't give up on a dream kids! It's never too late to start something new.

Thanks so much for making this video! I'm an electrical engineer and I've always been fascinated with the power grid and I really appreciate the opportunity to look behind the scenes. I almost went the "Power" route out of school but chose control systems and signal processing. No regrets, but I still get a thrill seeing big systems do their thing. Thanks again!

Always amazed to realize, that as a plant like this connects and ramps up its power output, _all the other plants on the grid back off by the same amount_ , keeping everything in balance.

Typically when you initiate a "Start" on a hydro unit the governor will open the gate servo to a preset "Speed no load " position to roll the generator off close to synchronous speed . Excitation to the generator field can then be applied either manually or initiated automatically by a speed switch (now you will see generator AC voltage slowly building up on the volt meters) . Generator output frequency and voltage can now be matched to the bus frequency and voltage by slowly increasing the water flow applied to the turbine to adjust the frequency and the field current applied to increase or decrease generator output voltage being compared to the bus AC values . With a properly tuned governor you should be able to adjust the generator speed so the sync scope is slowly moving in a clockwise (gen freq faster than bus freq) and every time the pointer passes through 12 O'clock on the meter the generator is momentarily in sync with the bus and the generator breaker can be closed just before 12 O'clock (allowing for Generator breaker closing speed and slip frequency )synchronizing the generator to the grid . After synchronizing you can load the generator by increasing the governor speed setpoint and putting more water on the turbine . The generator speed cannot increase now as it is held at 60 hertz by the grid you will see watts increase out of the generator now with the water increase .
If you were to adjust the speed setpoint down now to the point where you are not producing generator watts output you are then "Motoring " the generator but generator frequency will remain at 60 Hz. held by the grid . Increasing or decreasing the generator field current will result in Vars out , unity power factor . or Vars in condition but that is a lesson for another day. Hope this helps people who expressed interest.

Way back when I was a student at Purdue University in the 1970s, there was a machine lab in the EE building with WWII surplus motor generator sets. The instructor gave a demo with a set consisting of a variable speed electric motor and a 3-phase generator. He had three light bulbs and a knife switch. He tweaked on the motor speed until the lights were flashing very slowly, but he mis-timed closing the switch. This was about a 10 HP set mounted on big shock mounts, and I thought sure it was going to rip itself off those mounts as the rotor tried to turn about 60 degrees instataeously when he closed the switch. So I got a very convincing demonstration of what you avoided, albeit on a much smaller scale.

I know the feeling. At my work we used to have a 20KW UPS and a 75KW diesel generator. The UPS ouput was feeding the most important servers and uplink equipment at all times, while the UPS itself was fed by the grid under normal operation.
In case the grid went down, the grid was automatically disconnected from not only the UPS, but from the entire buidling. Then the diesel generator started, and after it ran at 50Hz, it automatically switched to/fed the UPS input. So all important equipment was never left in darkness in case of a power outage. Great design.
But there also was a switching panel that would allow you to connect the rest of the building to the diesel generator as well. This was a manual operation without risk (as the grid was switched off from the building).
The scary part: in case the grid would come back online (while the diesel generator was feeding the entire office building), there was a LED on the switching panel that had the same job as the synchroscope meter in this video. If the grid and diesel generator were in sync, you were allowed to manually switch from diesel to grid. I never dared to do so. The two times this happend I have chosen the safe way. That is: disconnect the diesel generator before connecting the entire building to the grid again.

This video was enlightening! I never really thought about the force that the grid exerts on the generator, but I see just how crucial it is for the generator to be in sync. Connecting to the grid is like matching engine RPM when doing a clutch-less shift in a manual transmission. The generator is like the engine, with its RPM governed by a valve that controls the flow of some fluid. The grid has inertia, just like a moving car (albeit many many orders of magnitude more). When you shift in a car and the RPM of the input shaft doesn't match that of the output, then your engine is going to spin up or down as some of the kinetic energy of the car is transferred to it. The way you have to fine-tune the flow also reminded me of the process of tuning old pot-controlled analog televisions (back when analog signals were still broadcast) as you watched the image tear and scroll up or down the screen, trying to get the scan rates to sync up.

I've been doing hydro for 42 years and my biggest advise is to buy a multifunction generator protection relay. My favorite these days is the SEL 700G relay. The $3-4k cost is the best money you will ever spend on your hydro plant. It will protect your generator from any fault and give you the capability of full autosync . Good luck, small hydro isn't easy!

Cool video, which brings back two memories for me. First, as an electrical engineering student, I remember doing this in the power lab at school. Of course, the powerplant we were syncing was much smaller - maybe 100KW, powered by a large DC motor instead of water. Same principals though. Second was even earlier - in high school I worked as a draftsman at a local hydroelectric dam. Since I was interested in electrical engineering, the chief engineer at the dam took me under his wing. We went all over that dam, the powerplant, inside the control cabinets. One day we were out touring around when they took one of the 60MW generators offline, which we watched from down in the shaft gallery where the wicket gate control servo was located. Normally, these huge hydraulics move imperceptibly slow, but on shutdown (and I can only imagine, startup), I saw how quickly this huge mechanism could move. It was awesome.

This is absolutely amazing. I have a very difficult time showing young PLC programmers who still don't understand the process control about peaking. This is a very fine example. Thank you.

I love how you talk to the machine like you're a Techpriest from 40k. The Machine Spirit must be appeased!

This takes me back to my Navy days onboard an Oliver Hazard Perry (FFG-7) frigate. As an Electric Plant Control Console operator, I got really good at synchronizing to "shore power" and picking up or removing the grid power. Four Stewart Stevenson V16 diesel engines capable of generaterating about 750 kW each.

What you want when you close the breaker is for the synchroscope to be going slowly in the fast direction (spinning clockwise). Then close the breaker at about 10 degrees from the top. This way it closes right at the top.
You want it slow in the fast direction because then when the breaker is closed, the machine will take on some load immediately. If it's moving in the slow direction (like it was in the video), the machine becomes a load on the grid at first (until he started loading it by opening the valves a bit more).

"My butthole is doing an impression of a rabbit's nose."
You sir have gained a new subscriber off that line.

Every 6 months or so I come back to watch how excited this guy gets when he synchronizes the generators :)

​ @Chris Boden, I had a friend of the family that has since passed on, who was on the beaches of Normandy running and synching the electric generators on the beach after the invasion. He told of how it took a bunch of times to get the gennies to all sync up, and how they kept crashing out of lock; all while all the brass sat there waiting for the power to come one! I never really appreciated the story, until watching you start up this one... It must have been a crazy scary time! His memories live on in me, and now you, my friend!

Came to see a power plant get started up, ended up rooting for an incredibly nervous technician doing it solo for the first time.

7:56 minutes of awesome! I forgot about everything at work and was glued to that gauge! Even I felt relief when it synced!

This brings back memories of my electrical apprenticeship, the class was split into 4 groups and each made, from a kit, a motor with a generator stacked on top. Most of the day was spent trying to sync the 4 sets together using the old Siemans Halsky method with lightbulbs, two bright and one dim. Eventually the room was synced and the teacher was congratulating everyone and he then leaned back on the wall...right onto the emergency power cutoff switch for the room, you can imagine what we said.

Love these videos Chris, keep them coming. The sounds, the commentary, everything really. As a blind viewer, I love how you describe things and how the videos are produced. Can’t praise it enough. Brilliant! Keep it coming. 👍😁

Many many years ago i was with my highschool on a visit to hydroplant. That hydroplant has 4 generators, two 110MW and two 115MW.
It was in late 90s and they where synhronizing gens by the click of the mouse.
They had large grey enclosures (row 50m long) with hundreds of meters and levers, but that was only for emergency use. All operations where done by industrial PC, and all parameters where seen in real time. From water flow, rotor and stator temp, bearing temp, exciter gen power and output power.

You scared me on the first attempt to synchronize. Cool how that trip valve worked. A weird thing that I learned about hydroelectric generators is that they turn so slowly as compared to 1800 and 3600 rpm units that they require the excitation slip rings to be ground eccentric. This gives the carbon brushes slight movement so they don't stick in place despite spring pressure.

I worked for a company which had its own hydroelectric power plant and we had only two guys who knew how to startup and sync the turbine. I watched them a few times and always found this to be sorcery. Thanks for making this video and for the explanation!

I love how excited you are! Surfing a power plant, that would make some animation lol

I've heard although never seen anything old enough to verify that the first generators were synchronized with a light bulb prior to even antique instruments. When the light bulbs are off there is no difference in potential between the generator and bus / load. When there is it is out of sync and at fully lit would be 180 out. When it was in sync some poor sap would manually close the gear. I build and maintain engine driven generators that produce more than this little hydro plant does but everything is automated now. They all have very fast smart protection relays on them and it all works great. I can't imagine being the person 100 years ago manually closing that gear while manually syncing a large generator. Definitely would make my butt pucker up every time. I'm sure Many a person was injured or killed by accidentally synching out of phase. Less an issue if it's just an induction generator but a synchronous will not be happy at all.

Many years ago (circa 1950) I spent several hours over a couple of years watching my dad operate a power plant (Horse Mesa Dam) on the Salt River, AZ. Memory is fading, but it took longer than this power plant to start up the 25 HZ turbines. Now, of course, they are remotely operated from another location in Phoenix, AZ, vicinity.

I was stationed on Forbidden Planet and was one of two that could get the Krell power station online. As I joke one day I fed the output back into the input.No one ever spoke to me again. Loved your video.

All the best decisions are made in manual mode. Also love the button nameplates just being sharpie.

All INFRA players know that feeling when you activate that piece of engineering! Great job! 🤩👍

I did it during my time at the university with a motor and a generator, and people have told me later I was the last of the communications students allowed to do that because the one after me has screwed up the phase sequence and the massive concrete block has jumped a little...
Excellent video, good explanation about the behaviour of the river.

Things that I didn't even know that I didn't know: That powering up a hydroelectric power plant could be exciting and nerve-wracking. Thank you for sharing your job with us.

I have retired from working 34 years in steam electric power plants with most of those years as a steam plant operator. Steam Turbine units take many hours to start up, but synchronizing the unit to the line is basically the same procedure once the steam turbine is near synchronous speed. The incoming voltage of the unit must match the line voltage. The turbine must be running just a little faster than the frequency of the system, so that the synchroscope is rotating slowly in the fast direction. Then close the circuit breaker when the synchroscope needle is pointed at the mark on the top. I have done this many times. In modern power plants this whole process is done by an automatic synchronizer device. This old hydro plant could have a modern automatic synchronizer installed that would automatically do all the items shown in this video.

SWEET I love it when the synchroscope meter needle goes lines up with the top mark, the sync lights are out than SNAP the contactor gear close and goes online AWESOME :)

Thanks for letting us watch ! Made me think back of a visit we (a bunch of control engineers and technicians) made to a large coal fired powerstation. A visit to the control room was included and while we were listening to the chief engineer one of our buddies made a bee line to the console were the turbines rpm were controlled. And wow did that chief move quickly ! Don't know if it was his years on the high seas (most of them came from a merchant navy engine room job) speaking, but I've never heard someone cursing so eloquently. Mind you, all in good fun, we wouldn't dream of messing with the GigaWatts they were handling there. That was way before all the modern windturbines were put up, and even then the grid was a big 'cat-and-mouse' game so to speak, hate to think what it must be now, even with the aid of powerful computers etc.

So if I understand this right:
1. Open the wickets (a sort of cylindrical throttle valve made of swing doors arranged in a circle) to start the turbine spinning.
2. The generator is actually an alternator, some electricity has to go in for other electricity to come out, which is how voltage is controlled. A device called an "exciter" is what makes/handles that ingoing electricity. I'm a car and airplane mechanic; my alternators get their field current from a lead acid battery, not sure about you power plant types.
3. Frequency and phase are RPM and instantaneous position of the generator's rotor. So it not only has to be turning at the right speed, but at the correct radial position. Before tying into the grid it is the operator's responsibility to match these things very closely with the grid, because you're Knight Rider backing KITT out of the truck at highway speed and dumping the clutch in first gear at the bottom of the ramp means a very broken Trans Am.
4. Once you're tied to the grid, the waveform on the grid will keep you in step. Basically you're an engine coupling up with a big freight train, the rest of the system locks your rotor speed and voltage, opening the wickets farther means more torque on the shaft, which the generator turns into amperage. Torque translates to amps. Grid voltage times amps means watts. Or hundreds of kilowatts.
5. If you are a load rather than a source, you will "fall off" the grid via some automated system or other to keep you from being a problem for everybody else.
6. The PLC or "autopilot" will control the exciter and/or wickets to match the demand from the grid attempting to maintain the standard voltage.
How'd I do?

I used to synchronise 500MW coal fired units in the UK using a synch trolley. 50hz over here, - the unit operators used to hand over to the engineer to excite the rotor and take control of the governor! 🙂. Synch was across a 400KV CB onto the grid 😁. Now work with CCGT’s and total auto synch! Not sure if any of the operators would have the courage to do a manual synch! 😆. We also synchronised them with the synch scope going clockwise - pushing out on the grid to avoid reverse power trips! 😎👍

I am an ex-Navy sonar technician and retired Army 52E (prime power production specialist) and was hired to work around the west on the hydro-electric generators performing rebuilds, etc., if not for developing severe complications from Gulf War related problems, I would be doing it today. What a person in the electrical field shoots for besides a lineman or power plant operator/technician. Great job here! 🤙🤙

Talk about a kid in a candy store! Your enthusiasm and love of the field is contagious.

Learned about synchronizing in training and our instructor showed our class this video to give more physical insight into how the grid works. We work with portable generators with Deep Sea controllers but all in all still the same. Love coming back to watch this video every month or so to get a chuckle in your passion and get a refresher on sychronizing.

I worked for many years in the construction industry building power stations and dams, I had never seen the process of starting up a turbine that was a very interesting video.

This is similar to how I feel when trying to sync an isolated 1500KVA generator back into the grid when it is struggling to hold sync long enough to close the switch. Such excitement and and the mild fear that sync drops before you close that switch by hand. I’ve only been there once or twice when it was wrong, and luckily I wasn’t the one closing the switch in these instances; it’s still pretty damn exciting to see those sparks and molten copper fly haha. Great video mate, I got exactly what I came for.

I worked as assistant operator at Bull Run Hydro plant in Oregon back in the 1980s.The governors and controls were all hand operated .We were told to never overspeed at start up!The plant was built in 1913 what an experiance!

This is the video that got me instantly addicted to your channel.

"That turbine behind me WILL sync to the grid ..." -- Now that sounds like an AWSOME video. =) (perhaps better done from some distance however)

I seriously love the genuine excitement. I'm a cloud architect and you had me on the edge of my seat. Just awesome!!

As an Electronics Tech/Engineer, I work on the other side of our electrical outlets... Mostly. Utility level... blows my mind.

I have no idea how I came across your videos on UA-cam, but I find it amazing because I worked at the self same dams you are showing in your videos. I was there in mid 2010's era. This video brought back a bunch of memories. I've operated that very panel to get that generator in sync with the grid. That generator was the most reliable of the three plants I worked at on that river at the time.
Messing with the Kaplan Turbine blade angles on that generator was interesting and could make for a good video if you're up to it. Finding the angle was fun because you had to utilize a stroboscope and match the flashes per minute to the RPM. However, if you jammed them into a limit, it was not fun to unjam. The process was shut down the generator, wait for the generator to completely stop, get the ratcheting socket wrench, jam the step stool into the angle switch on the panel (you can see the angle switch in the video) to engage the direction opposite of what it is jammed into, then you pray as you ratchet on that welded nut on top of the motor that's embedded into the generator shaft because once you set that thing free, the motor for the blade angle starts spinning at some gnarly RPM with your ratchet in tow, you need to dislodge the ratchet and then make a run to the panel to disengage the angle switch before it jams into its other limit. Things were all sorts of janky working there, but I enjoyed what I did. It was a learning experience.
Good video though. Nice to see this equipment still in use.

I used to work with a guy who's job in the Navy was to supervise the connection of his Battleship to the Shore supply, this required close monitoring of the phase or major fireworks were the result .

This triggered a couple of old memories. The first is when Ed Laxson (owner of Laxson Electric) told us about the time when he as an apprentice helped re-wire a generator after the city's engineer came in drunk and flipped the switch when it wasn't synced properly (back in the "three light bulb" days of synchronization). It ruined the generator and they had to "re-wind" it. Except that the windings were copper bars and he had to climb into the generator and bend the bars using a torch. This had to have happened sometime in the late '40s.
The other thing was a friend of mine who bought the powerplant on the Duck River in Columbia, Tennessee back in the '90s or early '00s, and spent a year trying to get Duck River Electric to agree to buy his power. He finally got approval the day before the Duck River had (yet another) massive flood which completely overtopped the powerplant.
I did get to tour the control room before this happened. It was pretty cool.
The flood convinced him to get rid of the powerplant.

i love this guy's passion for this kind of thing, it's people like him who have the drive to teach the next generation and impart in them just how fucking amazing all of the technology around us is and why it's important to know about it

This is easily my favorite video on all of UA-cam. Bless ya, Chris.

Love it! Have never seen a hydro plant come up and sync to the grid before!!

6:54 this really felt like the equivalent of two trains passing each other at speed and you managed to hop from one to the other.

Just found this vid, I've heard about the syncroscope before but it's fun actually seeing one in action at a power plant.

Wow, this takes me back. A long time ago I was a Merchant Navy Engineer. I loved bringing a ships alternator online.
Having started the engine (750hp diesel) I would then tweak the governor to match the revs to the already online alternator(s) as indicated by the frequency gauges. Having got the revs (frequency) very close I would then start nudging the governor to very gently match the phase. This was done by watching the phase clockdial. This guage showed the phase angle between the two supplies, When the pointer was at the top the phase angle was zero. But the rotational inertia of the diesel was an issue, so I only closed the connection if the pointer was moving very slowly through zero. A lovely sense of achievement would then be had through knowing that I had successfully manipulated many hundreds of kilowatts that needing very gentle finessing.
I suppose the only, but very big, difference is that I only had to worry about the very predictable rotational inertia of a diesel engine. I didn't have to worry about thousands of tons of water slopping about.
Thanks for sharing the experience.

I always wondered how you go from running at no load to generating power, that's pretty sweet that you just let er rip!

I'm no electrical engineer. Electricity is pretty much just magic to me. I have never once thought about what a power plant operator might be *doing* at work. And I've gotten by so far, thank you very much, without knowing that power plants had to sync with the grid like this. And yet... this was one of the most dramatic scenes I've ever seen play out. Amazing. It's probably no coincidence that UA-cam showed me this random video while I was going down a filmmaking-and-drama video rabbit hole

Mr . Chris Boden , I liked to see you , acting in the frequency and in the tension and doing the parallel . Here in Brazil i worked operating Westinghouse Generators and General Electric . Hugs from here in Brazil .

In general it is a good idea to get close to synchronisation and to add some frequency to the generator before trying to sync. Make sure the synchroscope is going only clockwise. This ensures, that the generator won't fall into reverse power right after synchronisation. Reverse power will trip the protective relay quickly if there is one.

Incredibly cool! I work with semiconductor active front end units that sync to the grid the easy way, by just generating an AC wave at the correct frequency. It's fascinating to see the old way of doing things. Certainly much more exciting :D

I used this video as a reference for my roleplay character bringing a coal-fired steam generator online for the first time. Great stuff, and thank you for making this video!

As a guy that started out doing pipeline construction. Moved to building and renovating fresh water and sewer pump stations, along with water treatment plants. This was exciting as fuck to watch. So interesting. I've always wanted to build a dam. Hopefully one day!

More excited than the alternator!
Beautiful video!

Really cool seeing how this is done. Also surprising to me how accurate the game "Infra" was at simulating this process. The game missed out on the water surging issues, but seems to have gotten the rest right. Infrastructure is cool.

This is a great video. I’ve heard of this process, but actually seeing it makes it more real. I have an interest in understanding the whole story of what happened at Chornobyl NPP. Part of that story has to do with understanding not just reactor side of the equation but also electricity generation side, specifically the turbines. One of the issues that a specialized crew was brought in for was to measure the vibration of the turbines.

EM2 Ross, Electricians Mate Second Class Petty Officer, USS Ranger CV-61, Aircraft Carrier, Jan 1976 to March 1980. The USS Ranger CV-61 had 6500 men during deployment to the Indian Ocean, Subic Bay Philippians. We had 600 in Engineering Department. Out of that 600, we had 200 Electrician's on board. Out of the 200 Electricians were about 30 Intercommunication Electricians. My first year on-board that is all I did day in and day out. My next several years I taught guys to do what you just did. Always have the sync-scope turning slowly clockwise when you close the breaker. Never take your eye off of the metering after closing. I assume you have a reverse power relay. We tested ours regularly. If you do not pick up load quickly, the reverse power relay will trip you offline.

Hertzh : steadily rising
Slow Fast meter: wheeeeeeee!

As a power plant operator my self this was pretty exiting even tho this is a much simpler setup than ours. 👍

I work in a powerplant, 99.99% of time its a piece of cake. .01% of the time we have story time. The number of people that are afraid of my place of work is unreal when we give tours.

Thanks for posting this. I've been in power control centers where they had the synchronous indicator, though the ones I saw were more like a cats-eye indicator than a meter. But I never happened to be there when they were phasing and connecting power. Very cool.

This really puts into perspective how much power an EV needs. The newest DC faster chargers are 350kw (350,000w)

Thanks for sharing that content and your enthusiasm with us.

Love it. I had a 12-71 Detroit generator that was rated for 350KW, 3-phase 240 and it was LOUD too! 😂
Like all Detroits it leaked oil everywhere, but that Dry-Sleeve made rebuilds easy!

As an electrical engineer and general scientist, I have just learned more from this 7:56 video and the audible enthusiasm than I might have learned from trying to be a hydro engineer via schooling. Than you sir, for a explanatory and working job well done.

Love to hear the tone of the hum changes everytime the frequency increases. Actually in 1:36, you already get the European frequency

this video is a demonstration of what am I studying right now as an electrical engineering student, thank you

This video autoplayed while I'm multitasking at work, because I couldn't hit stop in time to continue my playlist of short circuiting power lines (they fascinate me) but man I'm so glad it did! Your commentary and enthusiastic energy is infectious, I love it!

Good catch of the null, I've paralleled 1500KW Onan diesel generators to the grid at just a few degrees out of phase... major pucker factor! Well done Chris.

No matter the industry, we all talk to our control panels like we are trying to get our date into the back seat of our Dad’s sedan at the drive in.

I learned something here.

Awesome Job! That final kiss of the valve actuator did the trick. The MAGIC moment when the the synchroscope sat on zero . . . NOW ! I shouted outloud. Ha ha, I couldn't help myself. Terrific video. Congratulations! Next, valve full open, and you're online! The most honest excitement I've had in quite a while. Many thanks!

Not hydro, but have done that for a bank of 4 400 KW diesel sets, so don't quite have the same bounce. To get the power pickup and prevent the reverse power drop, I was taught to run the generator a little fast by about 1/2 hertz. This way you get the slow 2 second rotation clockwise, and close about the 55 minute mark, so the phase pulls in, then as it was fast, will produce power upon closing, then open up the power. Learned this while in the Navy for going off shore power. Going back to shore power, the input to the syncroscope is reversed so the rotation is still clockwise by reducing the speed until shore power is about 1/2 HZ fast in relation to the diesels, then running parallel, so the shore power picks up some load, then throttles are set lower until the power off diesel drops to nearly zero, then the breaker opened for a no glitch transfer to shore power.
Great video. Check with the manufacture about the sync process and if you can run slightly fast (clockwise) and close on the approach to 12:00 for a good sync with some pick up of load and prevent drop out from reverse power. Some newer equipment has protection to prevent closing out of phase in addition to reverse power, and over current drops.

That's great fun! I used to synchronize my rompin' stompin' 30 KW gas burning 240/120 1phase genset using a couple of light bulbs and a bulldog switch. Doggone that thing made the most horrible sounds if I didn't catch it just right.

I just watched the startup of a 100MW gas turbine generator last week and it had the same meter and two lights. Funny how things don't change. This is possibly the oldest gas turbine generator still in operation, late 50's. It made a lot more noise than yours.

Note that at 4:20 the frequency is at 58 hertz vs. the necessary 60, a difference of 2 hertz, I.e. the beat frequency. In conjunction, the sync gauge is rotating ‘slow’ at 2 rounds per second.
This is a marvelously done narrative!
It well bears rewatching.

I work in the energy sector, but in IT. Once, a technician told me that back in the old days, they would manually sync our large hydro plants to the grid, and these have a power output many times the mere 400 kW = 0.4 MW of the comparatively tiny generator in the video. If not done at the exact moment, a huge rumble would go through the whole building, and of course it would also cause a lot of wear & tear on the machines.

Im not an authorized person and im here.

"oh mom.. i got intenet again... :-) " i was going like "carful now.." and im on the other side of the planet LOL!

I love how excited every person who does this gets when they nail it even though you basically have to nail it every time.

Back in 1982, I watched as a team of electrical engineers trialled 2 very large diesel backup power generators in the basement of a huge skyscraper. The first came up fine. The 2nd looked good, but as it came online it flipped 180 out of phase with the first motor. The result, was lots of thick black smoke pouring out of the thick wires heading up into the ceiling. The engineers screamed, "Shit! run!". seconds later molten started to rain down out of the roof onto the generators below it.
High power is a world all of its own.

Exciting! Love these series of videos