This page is about how to control an evaporator canister - sometimes called as charcoal purge canister
The evaporator canister is ment as a temporary storage for gases from the fuel tank, instead of releasing them to atmosphere.
A simple valve controlled by GenBoard releases the gases to the intake given some conditions are met.
- low RPM
- low MAP
- warm engine
- closed-loop operation
- ... ?
Maybe with WBO2 closed loop control the condition becomes very simple.
Since we haven't seen much research/feedback on this (anyone want to contribute links or experience?) ...
I plan to install a solenoid to suck out the evaporator canister from time to time, using the same condition as for the variable intake with MembersPage/MarcellGal/EngineSwap/AirFeed : 1500..3000 RPM, 80..101kPa MAP. Actually planning to use same ECM output (a FET), but different solenoid (the 2 solenoid connected in parallel electronically).
google words: ...
pages: ...
Fero (or someone else), can you collect info about valve control that I believe was collected before but misplaced?
Hooked up the scan tool to an 01 civic, here is what I get.
- coolant above 70 c
- after that, the duty cycle changes based on rpm but it is graduall.
- Start car, 30 seconds or so later, approx 10% duty cycle. Leave it at idle, it creeps up to a max of about 30% in about 1 minute.
- Slight throttle input jumps to 30% then if maintained, will climb slowly to about 60%.
- Full throttle, is 100%.
- ON decel, duty cyle is 0%
- The more throttle, the more the dutycyle goes up, but it does it slowly, unless the throttle is moved quickly, then it will do a small, quick jump, but creep up the rest of the way to its full amount.
Thanx, very good info. A bit more complex than I thought. Apparently, it tries to avoid sucking the hell out of the canister (or adding extra air at low-load, whatever we call). Also, it changes slowly, so the EGO-correction can follow.
Also looking at this here: MembersPage/DavidBlades/FanTest
Carbon can operation
Based on the system in my TVR.
Connections:
Carbon can is always connected to atmosphere.
Carbon can is always connected to fuel tank vent.
Inlet is connected to carbon can ONLY during cycle 2.
Operation:
During cycle 1 the tank vent emissions pass into the carbon can where they are absorbed by the carbon. Non-hydrocarbon vapours are allowed to pass to atmosphere. (The tank is vented to atmosphere so the tank doesn't collapse as fuel is used.) There are no non-return valves in the system. The inlet port is closed.
During cycle 2, the inlet is connected to the carbon can. This allows the engine to consume the hydrocarbons stored in the tank. The tank is still connected to the carbon can at this stage, so it would be possible to collapse the tank due to excessive vacuum.
See also
- BoostControl : similar (small solenoid air-) valve is used