Increase of heat utilization coefficient of micro-TPP fuel based on ice with air-cooling due to cogeneration

Abstract

The market is widely represented by a number of micro HPP (gasoline generators) based on internal combustion engines (ICE) with air cooling. Such setups are used in everyday life, by professional builders, geologists, soldiers and rescuers in the areas of emergencies, and in the regions with lack of infrastructure. Improving the efficiency of such plants will reduce the amount of fuel supplied in the areas of their operation. This paper shows the main provisions of the research technique of the experimental cogeneration heat and power plant on the basis of an air-cooled carburetor combustion engine which is based on the mechanism of energy balances. The working capacity of the technique on various loads of the plant operation is shown. The conditions for determining the effect which consist in bringing the comparable variants to the same energy potential on the output of products are formulated. As comparison variants, it is necessary to consider electric power supply from the gas generator, and heat supply from the heat gun which, in turn, can use gas, liquid fuel or electric power as the primary energy carrier. The basic schemes of realization of cogeneration in the conditions of reduction to the same energy effect are presented. It is shown that the use of cogeneration obtained from heat of air flow cooling the cylinder head for micro HPP based on carbureted ICE with air cooling increases the coefficient of fuel heat utilization () by 1.52 times. The setup with 2.4 kW capacity for 3035 minutes can increase the temperature of the room air in the volume of 150 m3 (for example, in a staff or medical room) by  3C at  = 0.3. It is shown that cogeneration for mini-HPPs on the basis of air-cooled ICE after installation of a special heat exchanger for waste gas heat recovery allows increasing the fuel heat utilization coefficient up to  = 0.5. It is shown that a gasoline generator with cogeneration is more efficient than a gasoline generator in combination with a heat gun and due to fuel cost saving can be renewed every four years.