SU303344A1 - Method of utilization of heat of magnetic hydrodynamic generator waste gases - Google Patents

Description

The invention relates to direct conversion of heat into electrical energy, in particular, to methods for recovering heat from the exhaust gases of a magnetohydrodynamic MHD generator.

Various methods are known for the utilization of heat from the exhaust gases of an MHD generator, for example, with a heated oxidant, high temperature processing of materials, etc..

The purpose of the invention is to increase the degree of heat recovery of waste gases, to reduce the required pressure drop in the channel of the MHD generator and to ensure the possibility of using solid organic fuel as a fuel.

This is achieved by the fact that the combustion products from the channel of the MHD generator are partially sent to the reactor to be reduced by fossil fuels, and the rest

Some products are fed to surface heat exchangers to preheat the fuel and oxidant. Heat recovery in such a case turns out to be so efficient that it is possible to eliminate the use of a steam power cycle for using the heat of flue gases.

The drawing shows a thermal scheme of a power plant with an MHD generator for carrying out the proposed method.

The combustion products from the channel of the MHD generator 1 are partially sent to the reactor 2, where they are reduced by supplied with organic fuel to the reactor, and the rest of the combustion product is fed to the heat exchanger 3i b heaters 4 and S.

The gaseous fuel from the reactor 2 then flows into the heat exchanger 6, where it transfers part of the heat to the fuel compressed in compressor 7. From the heat exchanger 6, the cooled gas is supplied to the apparatus 8 for cleaning and further cooling, and then compressed to the required pressure in the compressor 7. Then the gaseous fuel is heated in the low-temperature heat exchanger 6 and the high-temperature heat exchanger 3, is sent to the combustion chamber 9 of the MHD generator . The oxidizer after preheaters 4 and 5 is also fed to combustion chamber 9.

The oxidizer is used both as ordinary air and as enriched with acidic substances.

In the case of the use of solid topv in the recessor; 2 can be represented

in the next place;

WITH SOD ZLbNa "2CO -) - ZLbM

In the case of gaseous fuels

ZSN4 co2 + - 3.76 H iCO +

8H. 3.76 N2 Thus, in a reactor 2, ordinary evaporation processes take place accompanied by absorption ;, heat. However, in contrast to the processes occurring in the extruded gas generators and converters, the non-circulating heat is introduced into the high-temperature products burned.

According to the operating conditions of the MHD generator, the combustion products from the channel exit with a temperature of 220 ° 2500 ° K, which, as the calculations show, is sufficient to restore them with organic fuel.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION A method for recovering heat from waste gases of an MHD generator with heated oxidizer and processing materials in a high temperature reactor, characterized in that the combustion products from the channel of the MHD generator are partially fed to the reactor for reduction with organic fuel, and the rest is pro. Duktszh combustion is served in pechnochnye heat exchangers to preheat the fuel and oxidant.