I would like to write a few words down here about water cooling issues and what to do about it because I think it will be a great help for a lot of people...
I would like to recommend everybody who have a big bore kit installed on the PCX to use a NGK CR9E spark plug to have a better, cooler running engine and to avoid detonation to start with.
- Now about the cooling system, the name of the enemy from a water cooling system is “air”.
As soon as air bubbles come in to your water cooling system, or when the pressure is gone it’s game over with the cooling capacity from your water cooling system.
If you are faced with a hot running engine, then I really would like to recommend you to install a open loop thermostat instead of the stock thermostat (item with number 4 on the picture below) which opens stock only with pressure when your engine is already in the higher temperature range.
Keep in mind that as long as that valve don't open in the thermostat you are in a bypass closed loop, not open loop and you'r not using water that comes from your radiator, only water from your cylinder and head.
That water is pumping around in a small circuit until slowly the pressure gets higher and the small piston inside the thermostat opens, and is closing the bypass to allow water from the radiator to be pumped around.
If you are in open loop all the time you will not experience engine warming up problems because there is still a small diameter hose (Nr. 8 from the picture below) attached on your water pump that brings hot water from your cylinder and head back to your water pump. If you would eliminate that hose, then you would start to get warming up problems and your bike would feel the first 2km's like it needs choke.
If you are in open loop all the time it's a lot easier to get all the air out of your cooling system as well and to check the level from your coolant in your system.
If you had removed your radiator to install a big bore kit and you install the radiator again, then fill it up until the top and start your engine.
You will see small air bubbles coming out of the water and you want to get rid of all air bubbles in your cooling system, so let the engine run stationary until you see no air bubbles anymore in your circulating water.
If your water becomes too hot it will be pushed upwards.
If this happens while you try to get rid of the air bubbles, close the engine and start the engine again after a few minutes to continue to see if there are more air bubbles coming out of the water.
If you have no air bubbles anymore, then fill the radiator up entirely to the top so that you can’t trap air inside your radiator.
Air can enter in many ways in to your water cooling system.
The first way is a leaking/blowing cylinder head gasket because like this your piston is pushing air out of the combustion chamber in to your water circulation system.
Be aware that your radiator cap must be strong enough, original it’s 0.9 bar we recommend at least 1.3 bar with 1.6 or 1.8 bar as maximum.
At the moment your radiator cap opens, the pressure go’s away from your water cooling system and this will suddenly bring the boiling point from your coolant to a serious lower degree which means that your coolant will start to boil even more! You will start to produce a lot of steam, so water is disappearing from your cooling system and without water in your cooling system its game over with the cooling function/capacity from your entire cooling system. At that point your engine has no chance anymore to cool down and the only thing your engine can do at that moment is running hot and even running hotter.
Filling water up in the water tank is no solution, the engine needs to cool down and you need to fill your radiator up again until the top.
If you fill the water in your tank, then this water never gets in your cooler like it should be.
Be also sure that the closing surface inside your water cooler is perfectly flat!
With the surface we mean the surface area from the water cooler where the sealing rubber from your radiator cap will push on.
If that surface isn’t perfectly flat you can expect cooling problems because it will be possible to leak at that point so with a leak the pressure will be lower which will bring the boiling point lower and your coolant will start to boil premature.
The points I write down here are based on our personal experience and knowledge at Yuminashi so I it might be useful to you.
If you don't understand why a higher number bar radiator cap is useful, then you can click this link to read the explanation about this http://www.yuminashi.eu/high-pressure-radiator-cap-1-1/
Greetings,
Reggy
Avoiding a hot running engine...
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Re: Avoiding a hot running engine...
While it sounds great, my concern is whether or not the entire cooling system is actually designed to handle more pressure, because I would think if the answer is "no", you'll end up with more leaky tubes.
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Re: Avoiding a hot running engine...
Bingo!YUMINASHI wrote:I would like to write a few words down here about water cooling issues and what to do about it because I think it will be a great help for a lot of people...
I would like to recommend everybody who have a big bore kit installed on the PCX to use a NGK CR9E spark plug to have a better, cooler running engine and to avoid detonation to start with.
- Now about the cooling system, the name of the enemy from a water cooling system is “air”.
As soon as air bubbles come in to your water cooling system, or when the pressure is gone it’s game over with the cooling capacity from your water cooling system.
If you are faced with a hot running engine, then I really would like to recommend you to install a open loop thermostat instead of the stock thermostat (item with number 4 on the picture below) which opens stock only with pressure when your engine is already in the higher temperature range.
Keep in mind that as long as that valve don't open in the thermostat you are in a bypass closed loop, not open loop and you'r not using water that comes from your radiator, only water from your cylinder and head.
That water is pumping around in a small circuit until slowly the pressure gets higher and the small piston inside the thermostat opens, and is closing the bypass to allow water from the radiator to be pumped around.
If you are in open loop all the time you will not experience engine warming up problems because there is still a small diameter hose (Nr. 8 from the picture below) attached on your water pump that brings hot water from your cylinder and head back to your water pump. If you would eliminate that hose, then you would start to get warming up problems and your bike would feel the first 2km's like it needs choke.
If you are in open loop all the time it's a lot easier to get all the air out of your cooling system as well and to check the level from your coolant in your system.
If you had removed your radiator to install a big bore kit and you install the radiator again, then fill it up until the top and start your engine.
You will see small air bubbles coming out of the water and you want to get rid of all air bubbles in your cooling system, so let the engine run stationary until you see no air bubbles anymore in your circulating water.
If your water becomes too hot it will be pushed upwards.
If this happens while you try to get rid of the air bubbles, close the engine and start the engine again after a few minutes to continue to see if there are more air bubbles coming out of the water.
If you have no air bubbles anymore, then fill the radiator up entirely to the top so that you can’t trap air inside your radiator.
Air can enter in many ways in to your water cooling system.
The first way is a leaking/blowing cylinder head gasket because like this your piston is pushing air out of the combustion chamber in to your water circulation system.
Be aware that your radiator cap must be strong enough, original it’s 0.9 bar we recommend at least 1.3 bar with 1.6 or 1.8 bar as maximum.
At the moment your radiator cap opens, the pressure go’s away from your water cooling system and this will suddenly bring the boiling point from your coolant to a serious lower degree which means that your coolant will start to boil even more! You will start to produce a lot of steam, so water is disappearing from your cooling system and without water in your cooling system its game over with the cooling function/capacity from your entire cooling system. At that point your engine has no chance anymore to cool down and the only thing your engine can do at that moment is running hot and even running hotter.
Filling water up in the water tank is no solution, the engine needs to cool down and you need to fill your radiator up again until the top.
If you fill the water in your tank, then this water never gets in your cooler like it should be.
Be also sure that the closing surface inside your water cooler is perfectly flat!
With the surface we mean the surface area from the water cooler where the sealing rubber from your radiator cap will push on.
If that surface isn’t perfectly flat you can expect cooling problems because it will be possible to leak at that point so with a leak the pressure will be lower which will bring the boiling point lower and your coolant will start to boil premature.
The points I write down here are based on our personal experience and knowledge at Yuminashi so I it might be useful to you.
If you don't understand why a higher number bar radiator cap is useful, then you can click this link to read the explanation about this http://www.yuminashi.eu/high-pressure-radiator-cap-1-1/
Greetings,
Reggy
That's what I needed to worry about! AIR!!!
Thank you so much, I feel like one of the gang now.
What type of air?
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Re: Avoiding a hot running engine...
Only the bit you are breathing
Re: Avoiding a hot running engine...
So far so good with the 1.6 bar radiator cap Valiant, so that's no problem...Valiant wrote:While it sounds great, my concern is whether or not the entire cooling system is actually designed to handle more pressure, because I would think if the answer is "no", you'll end up with more leaky tubes.
http://www.yuminashi.eu/high-pressure-radiator-cap-1-6/
Re: Avoiding a hot running engine...
Please tell me, if you close pipe 8 of the small cooling circle, will the coolant be colder, especially in the heat? In order not to open the constant cooling of the engine in a large circle.YUMINASHI wrote: ↑Mon Feb 09, 2015 5:44 am I would like to write a few words down here about water cooling issues and what to do about it because I think it will be a great help for a lot of people...
I would like to recommend everybody who have a big bore kit installed on the PCX to use a NGK CR9E spark plug to have a better, cooler running engine and to avoid detonation to start with.
- Now about the cooling system, the name of the enemy from a water cooling system is “air”.
As soon as air bubbles come in to your water cooling system, or when the pressure is gone it’s game over with the cooling capacity from your water cooling system.
If you are faced with a hot running engine, then I really would like to recommend you to install a open loop thermostat instead of the stock thermostat (item with number 4 on the picture below) which opens stock only with pressure when your engine is already in the higher temperature range.
Keep in mind that as long as that valve don't open in the thermostat you are in a bypass closed loop, not open loop and you'r not using water that comes from your radiator, only water from your cylinder and head.
That water is pumping around in a small circuit until slowly the pressure gets higher and the small piston inside the thermostat opens, and is closing the bypass to allow water from the radiator to be pumped around.
If you are in open loop all the time you will not experience engine warming up problems because there is still a small diameter hose (Nr. 8 from the picture below) attached on your water pump that brings hot water from your cylinder and head back to your water pump. If you would eliminate that hose, then you would start to get warming up problems and your bike would feel the first 2km's like it needs choke.
If you are in open loop all the time it's a lot easier to get all the air out of your cooling system as well and to check the level from your coolant in your system.
If you had removed your radiator to install a big bore kit and you install the radiator again, then fill it up until the top and start your engine.
You will see small air bubbles coming out of the water and you want to get rid of all air bubbles in your cooling system, so let the engine run stationary until you see no air bubbles anymore in your circulating water.
If your water becomes too hot it will be pushed upwards.
If this happens while you try to get rid of the air bubbles, close the engine and start the engine again after a few minutes to continue to see if there are more air bubbles coming out of the water.
If you have no air bubbles anymore, then fill the radiator up entirely to the top so that you can’t trap air inside your radiator.
Air can enter in many ways in to your water cooling system.
The first way is a leaking/blowing cylinder head gasket because like this your piston is pushing air out of the combustion chamber in to your water circulation system.
Be aware that your radiator cap must be strong enough, original it’s 0.9 bar we recommend at least 1.3 bar with 1.6 or 1.8 bar as maximum.
At the moment your radiator cap opens, the pressure go’s away from your water cooling system and this will suddenly bring the boiling point from your coolant to a serious lower degree which means that your coolant will start to boil even more! You will start to produce a lot of steam, so water is disappearing from your cooling system and without water in your cooling system its game over with the cooling function/capacity from your entire cooling system. At that point your engine has no chance anymore to cool down and the only thing your engine can do at that moment is running hot and even running hotter.
Filling water up in the water tank is no solution, the engine needs to cool down and you need to fill your radiator up again until the top.
If you fill the water in your tank, then this water never gets in your cooler like it should be.
Be also sure that the closing surface inside your water cooler is perfectly flat!
With the surface we mean the surface area from the water cooler where the sealing rubber from your radiator cap will push on.
If that surface isn’t perfectly flat you can expect cooling problems because it will be possible to leak at that point so with a leak the pressure will be lower which will bring the boiling point lower and your coolant will start to boil premature.
The points I write down here are based on our personal experience and knowledge at Yuminashi so I it might be useful to you.
If you don't understand why a higher number bar radiator cap is useful, then you can click this link to read the explanation about this http://www.yuminashi.eu/high-pressure-radiator-cap-1-1/
Greetings,
Reggy
Re: Avoiding a hot running engine...
So basically the extra thermal load generated over the stock engine capacity is to much and boils the coolant.....? And your solution is to increase the pressure in the system which raises the boiling point and increases the engines running temperature. The standard radiator caps set so at a set temperature the system boils over and releases the pressure alerting the rider that the bike is over hearing. I would image the extra bar (or 14psi or their abouts) off pressure will also have an effect on the gaskets, pipes and pipe fittings while combined with the extra thermal load isn't a good combination.
Next the cooler plug rating won't make the engine run cooler. That isn't how spark plug heat ranges work. The cooler range plug means it can disapate the heat generated from the plug tip easier to the head making the plug tip cooler and prevent pinking (knock / pre ignition) if the plug tip is to hot. It won't alter the engines running temperature
If the engines running hot and creating heat soak issues then I would be checking the air fuel ratio first and making it richer if required. Next I would make sure the exhaust is flowing efficiently helping remove heat from the engine. After that I would be looking at the coolant system and then adjust it accordingly. ie better air flow through radiator, oil cooler or bigger radiator. In the case of a big bore kit I would imagine that in the stock radiator position with stock flow a 20% bigger engine will need 20% bigger radiator. That is a generalised statement as would depend on the physics off the new capacity, fueling and conditions off use
Next the cooler plug rating won't make the engine run cooler. That isn't how spark plug heat ranges work. The cooler range plug means it can disapate the heat generated from the plug tip easier to the head making the plug tip cooler and prevent pinking (knock / pre ignition) if the plug tip is to hot. It won't alter the engines running temperature
If the engines running hot and creating heat soak issues then I would be checking the air fuel ratio first and making it richer if required. Next I would make sure the exhaust is flowing efficiently helping remove heat from the engine. After that I would be looking at the coolant system and then adjust it accordingly. ie better air flow through radiator, oil cooler or bigger radiator. In the case of a big bore kit I would imagine that in the stock radiator position with stock flow a 20% bigger engine will need 20% bigger radiator. That is a generalised statement as would depend on the physics off the new capacity, fueling and conditions off use
CBR1100XX blackbird (modified), CBR929RR Turbo, CBR600F Sport (modified), several beta trials bikes and endurance bikes