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Hello,
I am finally back to working on my Beahawk kit after a several year hiatus. One of the things that has changed since I last worked on it is my decision to install the SDS EFII system. In particular the fuel injection system has some characteristics that pose challenges to the fuel system Bob designed. I suspect that there are others that are interested in the SDS EFI system so I thought I would add this for discussion. Ross from SDS also just said that he has joined the site so that he can watch for questions. He post regularly on the RV forum. Between designing and manufacturing his products and posting on the RV forum I don't know when he finds time to sleep.
The first is that the SDS system is not a returnless system. The return flows may be close to a gallon a minute. While returns can be relativity easily added to the main tanks, feeding the high pressure, high flow, electric pumps is another issue. The system Bob designed was not intended to flow this much fuel. The risk of getting air in the system is also another real concern that the system would likely never experience gravity feeding a carburetored engine.
After thinking about this for some time I decided that a small header tank would likely be the best option for making a reliable and safe fuel system. The other major change from Bob's design that I believe is a good idea is adding a vent between the main tanks that the header tank is also connected to. I discussed adding the SDS EFI system with Svyolo and it appears that we have come to very similar conclusions about what is needed to safely add the SDS system to the Bearhawk.
My system is also a little different from a typical return type system in that I plan to have an independent return valve. This requires more attention to fuel management if the fuel is not set to return to the header tank. However, it does allow me to use the pumps to transfer fuel on the ground or at cruise. It also could cause an unwanted fuel pressure spike of up to 110 PSI, according to Ross at SDS, if the valve position is changed while the pumps are operating. To alleviate this spike I plan to install a check valve with a crack pressure of approximately 60PSI. The crack pressure is adjustable via shims. In the unlikely event that the highly reliable Borla regulator were to fail and cause a drop in fuel pressure it might be possible to close the return valve and utilize the check vale to increase fuel pressure until a landing can be made. A more typical system might be one where the fuel returns only to the header tank and a return or duplex fuel valve, and the associated return lines to the main tanks, would not be required.
I asked Ross at SDS if he thought a 1 gallon header tank would be adequate. His prompt reply was that he though it would be good. A 260HP IO-540 should be using close to two quarts a minute at takeoff power. This means that the fuel in a one gallon header tank would be replaced in less than a minute at take off power and every thee to four minutes at cruise. Since the SDS system does not return any fuel from the injectors and only from the small manifold that is located away from the hot cylinders I do not believe that fuel heating will be a problem. Additionally, the main fuel tanks and fuel lines only have to provide the amount of fuel that the engine is burning, just as Bob designed them to do.
I just obtained a set of fuel pumps and filters from SDS. The machining of the SDS manufactured parts is excellent. I am now working to figure out where I wan to install the pumps, the main filters and the header tank as well as my Dynon pitch servo. At the moment I think I can get them all under the left seat. This protects then in case of a gear failure and also makes the main filter easy to access for removal and inspection at every condition inspection. One thing I will have to consider is that I suspect Bob designed the seat rails to deform and reduce the G's experienced during a very hard landing. Having items under the seat would obviously interfere with this design.
Attached is a preliminary diagram of my proposed system.
Disclaimer.: This is all theory and I have not done any testing of the ideas presented here. It is up to you to design, test, and decided what is safe for your installation. The discussion also applies ONLY to the SDS EFI system as other systems that I am aware of will likely add much more heat to the fuel before it is returned due to their injector and fuel manifold locations.
V/R,
John Poulter IMG_20200513_110630833.jpg
I am finally back to working on my Beahawk kit after a several year hiatus. One of the things that has changed since I last worked on it is my decision to install the SDS EFII system. In particular the fuel injection system has some characteristics that pose challenges to the fuel system Bob designed. I suspect that there are others that are interested in the SDS EFI system so I thought I would add this for discussion. Ross from SDS also just said that he has joined the site so that he can watch for questions. He post regularly on the RV forum. Between designing and manufacturing his products and posting on the RV forum I don't know when he finds time to sleep.
The first is that the SDS system is not a returnless system. The return flows may be close to a gallon a minute. While returns can be relativity easily added to the main tanks, feeding the high pressure, high flow, electric pumps is another issue. The system Bob designed was not intended to flow this much fuel. The risk of getting air in the system is also another real concern that the system would likely never experience gravity feeding a carburetored engine.
After thinking about this for some time I decided that a small header tank would likely be the best option for making a reliable and safe fuel system. The other major change from Bob's design that I believe is a good idea is adding a vent between the main tanks that the header tank is also connected to. I discussed adding the SDS EFI system with Svyolo and it appears that we have come to very similar conclusions about what is needed to safely add the SDS system to the Bearhawk.
My system is also a little different from a typical return type system in that I plan to have an independent return valve. This requires more attention to fuel management if the fuel is not set to return to the header tank. However, it does allow me to use the pumps to transfer fuel on the ground or at cruise. It also could cause an unwanted fuel pressure spike of up to 110 PSI, according to Ross at SDS, if the valve position is changed while the pumps are operating. To alleviate this spike I plan to install a check valve with a crack pressure of approximately 60PSI. The crack pressure is adjustable via shims. In the unlikely event that the highly reliable Borla regulator were to fail and cause a drop in fuel pressure it might be possible to close the return valve and utilize the check vale to increase fuel pressure until a landing can be made. A more typical system might be one where the fuel returns only to the header tank and a return or duplex fuel valve, and the associated return lines to the main tanks, would not be required.
I asked Ross at SDS if he thought a 1 gallon header tank would be adequate. His prompt reply was that he though it would be good. A 260HP IO-540 should be using close to two quarts a minute at takeoff power. This means that the fuel in a one gallon header tank would be replaced in less than a minute at take off power and every thee to four minutes at cruise. Since the SDS system does not return any fuel from the injectors and only from the small manifold that is located away from the hot cylinders I do not believe that fuel heating will be a problem. Additionally, the main fuel tanks and fuel lines only have to provide the amount of fuel that the engine is burning, just as Bob designed them to do.
I just obtained a set of fuel pumps and filters from SDS. The machining of the SDS manufactured parts is excellent. I am now working to figure out where I wan to install the pumps, the main filters and the header tank as well as my Dynon pitch servo. At the moment I think I can get them all under the left seat. This protects then in case of a gear failure and also makes the main filter easy to access for removal and inspection at every condition inspection. One thing I will have to consider is that I suspect Bob designed the seat rails to deform and reduce the G's experienced during a very hard landing. Having items under the seat would obviously interfere with this design.
Attached is a preliminary diagram of my proposed system.
Disclaimer.: This is all theory and I have not done any testing of the ideas presented here. It is up to you to design, test, and decided what is safe for your installation. The discussion also applies ONLY to the SDS EFI system as other systems that I am aware of will likely add much more heat to the fuel before it is returned due to their injector and fuel manifold locations.
V/R,
John Poulter IMG_20200513_110630833.jpg
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