چكيده به لاتين
Co-generation (CCHP ) is the combined production of two or more forms of energy (such as electrical, thermal and refrigeration energy) from a simple primary source (such as the chemical energy of different fuels). Because in the cogeneration model, the primary energy consumed, namely electricity, heat, and refrigeration, is supplied through a system with a specific fuel input, the energy supply costs are significantly reduced. In conventional methods, the consumer has to buy the electricity he needs from the national grid and on the other hand has to bear separate costs for his heating and cooling costs. While in the method of cogeneration, which is used in the form of distributed generation, the consumer is independent of the global electricity grid, and on the other hand, because it makes the most of the energy content of the input fuel (up to 90%), the amount And the cost of energy consumption is greatly reduced. In this study, we generate electricity, heat, cold, and carbon dioxide (CCHPC ) simultaneously by a system using a high-efficiency gas-fired generator (GE ) engine set in a greenhouse. The help of heat recovery in this system, the heat lost from this set is provided as usable thermal energy and also the cooling operation is done by placing the chiller in the cycle path.
Some of the electricity generated by the CCHPC system is used at the tomato production site and the surplus is sold to the national grid. GE thermal energy is used in the heating system to produce hot air, hot and hot water and steam. Also, by passing combustion gases, catalysts installed in the flue after removing harmful gases, high quality and purity CO2 for use in space. Plant breeding is available. In this study, efforts to optimize and reduce pollution, CCHPC cycle efficiency have been increased and costs have been minimized.
