Hi everyone,
After Minh-Than built his diesel, I got interested in making my own. I've since gone full Nerd and gone down a very deep rabbit hole reading about diesel combustion systems, in particular the work Sir Harry Ricardo (who should be a personal hero of any model engine builder) did on getting small, high speed diesels to run well in the 1920s and 1930s. I'd like to run my engine on biodiesel or regular diesel fuel, and (potentially) use it to actually drive a load so we definitely need a good combustion system to avoid poor fuel consumption, excessive smoke, etc.
My plan to achieve this is to use a swirl chamber. This demands a high compression ratio: my design is planned to be around 23:1. I'll probably also need to preheat the induction air for cold starting (I can't fit both a glow plug and injector into the 10mm diameter swirl chamber). Fueling is planned to be by a bosch style jerk pump, which will be lubricated by the fuel itself so that we can tolerate some small leakage past the plunger.
Here's the current progress designing the guts of the engine.
Due to a goof-up on a customer job, I now possess a very large number of 20mm ID manganese bronze bearings, so they will be the mains. You can see the piston (three compression rings and one oil control) and conrod (fairly conventional) along with the heavy duty crankshaft and a stand-in for the camshaft and lifters. In the background is the injection pump housing.
Most of the work I've done so far was on the cylinder head. The counterflow intake design should help keep heat in the charge for smooth combustion and encourage swirl in the cylinder to aid the second phase of combustion outside of the swirl chamber.
The swirl chamber is formed by a hemispherical pocket in the head and a matching stainless steel insert that forms the lower part of the chamber and includes a tangential port connecting it to the cylinder. The Injector is of the inwards opening pintle type:
The barbed fitting on the top is a spill-over drain for fuel that escapes past the needle into the upper part of the injector. The needle seals to the bore via a delrin piston ring, and as rings have a gap there will always be some leakage.
I hope everyone's interested in the start of this big project! Much more design work remains to be done, along with prototyping fuel system components etc before starting the engine build itself. Wish me luck.
-Nerd
After Minh-Than built his diesel, I got interested in making my own. I've since gone full Nerd and gone down a very deep rabbit hole reading about diesel combustion systems, in particular the work Sir Harry Ricardo (who should be a personal hero of any model engine builder) did on getting small, high speed diesels to run well in the 1920s and 1930s. I'd like to run my engine on biodiesel or regular diesel fuel, and (potentially) use it to actually drive a load so we definitely need a good combustion system to avoid poor fuel consumption, excessive smoke, etc.
My plan to achieve this is to use a swirl chamber. This demands a high compression ratio: my design is planned to be around 23:1. I'll probably also need to preheat the induction air for cold starting (I can't fit both a glow plug and injector into the 10mm diameter swirl chamber). Fueling is planned to be by a bosch style jerk pump, which will be lubricated by the fuel itself so that we can tolerate some small leakage past the plunger.
Here's the current progress designing the guts of the engine.
Due to a goof-up on a customer job, I now possess a very large number of 20mm ID manganese bronze bearings, so they will be the mains. You can see the piston (three compression rings and one oil control) and conrod (fairly conventional) along with the heavy duty crankshaft and a stand-in for the camshaft and lifters. In the background is the injection pump housing.
Most of the work I've done so far was on the cylinder head. The counterflow intake design should help keep heat in the charge for smooth combustion and encourage swirl in the cylinder to aid the second phase of combustion outside of the swirl chamber.
The swirl chamber is formed by a hemispherical pocket in the head and a matching stainless steel insert that forms the lower part of the chamber and includes a tangential port connecting it to the cylinder. The Injector is of the inwards opening pintle type:
The barbed fitting on the top is a spill-over drain for fuel that escapes past the needle into the upper part of the injector. The needle seals to the bore via a delrin piston ring, and as rings have a gap there will always be some leakage.
I hope everyone's interested in the start of this big project! Much more design work remains to be done, along with prototyping fuel system components etc before starting the engine build itself. Wish me luck.
-Nerd
