Abstract: A Glycerin Fueled Afterburning Engine utilizes the power generation unit exhaust heat to pre-heat the glycerin, or similar difficult to combust fuel, and then utilizes regenerative burner heating to fully vaporize and superheat the fuel above the auto ignition temperature. The combustion inlet air is also highly preheated by the recuperative power generation cycle. The actual combustion process is then accomplished by hypergolic ignition from mixing the hot vapor with the hot air. The overall engine process operates on a cycle of (1) air compression, (2) indirect heating of air in an air heater, (3) air expansion, (4) air heating by combustion, and (5) air cooling by heat transfer to the incoming compressed air charge in the recuperator.
Abstract: The invention is a positive displacement heat engine; where the engine cycle comprises the steps of Ericsson (isothermal) compression, recuperative heat addition, Brayton (adiabatic) expansion, and recuperative heat removal; whose principle is heat addition to the cycle by an afterburner in which fuel is burned with the low pressure air working fluid exhausted by the expander. The resulting combustion gases are used in a counterflow heat exchange recuperator to continually heat the high pressure air compressed by the compressor. All moving parts are only exposed to clean air, and the expander valves can be operated at temperatures comparable to current internal combustion engines. Liquid, solid or gaseous fuels can be used and control of speed and power is simple, based on keeping engine temperatures constant. The low-pressure continuous combustion avoids fuel pressurization problems and allows high efficiency, low emission combustion processes.