Lol I have the flow backwards, you can still connect the lines the way I described it but the flow goes out of the back of the head and into the hard line. Also the oil cooler flow comes out of the block, goes through the cooler then into the hard pipe and back around to the water pump. 🤦Oops...
So, if im deleting the heater core, the coolant still needs to route thru the back of the head, into that inlet? Im trying to delete everything but the coolant flow thru the engine, and rad. Oil has its own cooler.
Yes, the two hose connections on the back of the head need to be connected. The port off the back of the head (left side) should feed into the the connection on the hard line (right side)
I believe the line out of the back of the head and the one that returns to the back of the water pump need to be connected, all the small stuff on the oil filter side can get capped off.
@@Otto_Factory I do not recommend deleting the oem oilcooler or heater core and just connecting the hoses like mentioned. If there is no resistance in the loop you will basically just pump water around your engine. Also I would not block the line leaving the head because of air getting trapped. Therefore, block the waterport on the block from the oilcooler and keep the return from the head back to the waterpump but add a restrictor (3mm) to it so air can evacuate.
Thanks for the explanation, there's another weird coolant line that goes into the pcv valve, would you know to remove that line? Or what's the purpose?
Lol I have the flow backwards, you can still connect the lines the way I described it but the flow goes out of the back of the head and into the hard line. Also the oil cooler flow comes out of the block, goes through the cooler then into the hard pipe and back around to the water pump. 🤦Oops...
So, if im deleting the heater core, the coolant still needs to route thru the back of the head, into that inlet? Im trying to delete everything but the coolant flow thru the engine, and rad. Oil has its own cooler.
Yes, the two hose connections on the back of the head need to be connected. The port off the back of the head (left side) should feed into the the connection on the hard line (right side)
You really deserve more subscribers bro
As long as I can help a few, im good with that. But I appreciate that.
Nice video what is inlet to oil cooler? The metal line or the block side?
Inlet would be the block side, outlet is the hard line.
@@Otto_Factory Ok so it's out the hard line to heater core then to back of head correct.
Yes, the flow is reversed but as long as the heater core is the hard line to the head, it will work.
If you aren’t running heat would you just block off all the water lines you showed ?
I believe the line out of the back of the head and the one that returns to the back of the water pump need to be connected, all the small stuff on the oil filter side can get capped off.
@@Otto_Factory I do not recommend deleting the oem oilcooler or heater core and just connecting the hoses like mentioned. If there is no resistance in the loop you will basically just pump water around your engine. Also I would not block the line leaving the head because of air getting trapped. Therefore, block the waterport on the block from the oilcooler and keep the return from the head back to the waterpump but add a restrictor (3mm) to it so air can evacuate.
Hey bro great video... quick question what size it’s the return line because I want to by a bolt and block mine
You talking about the oil cooler return on the block?
Thanks for the explanation, there's another weird coolant line that goes into the pcv valve, would you know to remove that line? Or what's the purpose?
The pcv should go from the cam cover to the intake manifold, you sure you're looking at the right line?
Is this the same for a 1jz nonvvti?
I don't know, I'd imagine it's close but I can't say as I've never worked on a non vvti