SP Trade
The standardized technology of greenhouse CHP is based on gas piston engines, supplemented by a catalyst, heat exchanger, and other auxiliary equipment. The entire set of equipment is a unified comprehensive solution.
Energy produced by the cogeneration systems of gas engines includes electricity, heat, and CO 2 from the engine's exhaust gases.
When natural gas is burned in the engine, almost 1.8 kg of CO 2 is produced per cubic meter of natural gas. After the exhaust gases are cleansed using special catalytic converters (Selective Catalytic Reduction (SCR) and oxidation), they are cooled with a heat exchanger to a temperature of about 50°C and fed into the greenhouse complex to enrich with CO 2.
The standardized technology of greenhouse CHP is based on gas piston engines, supplemented by a catalyst, heat exchanger, and other auxiliary equipment. The entire set of equipment is a unified comprehensive solution.
Energy produced by the cogeneration systems of gas engines includes electricity, heat, and CO 2 from the engine's exhaust gases.
When natural gas is burned in the engine, almost 1.8 kg of CO 2 is produced per cubic meter of natural gas. After the exhaust gases are cleansed using special catalytic converters (Selective Catalytic Reduction (SCR) and oxidation), they are cooled with a heat exchanger to a temperature of about 50°C and fed into the greenhouse complex to enrich with CO 2.
The standardized technology of greenhouse CHP is based on gas piston engines, supplemented by a catalyst, heat exchanger, and other auxiliary equipment. The entire set of equipment is a unified comprehensive solution.
Energy produced by the cogeneration systems of gas engines includes electricity, heat, and CO 2 from the engine's exhaust gases.
When natural gas is burned in the engine, almost 1.8 kg of CO 2 is produced per cubic meter of natural gas. After the exhaust gases are cleansed using special catalytic converters (Selective Catalytic Reduction (SCR) and oxidation), they are cooled with a heat exchanger to a temperature of about 50°C and fed into the greenhouse complex to enrich with CO 2.
Advantages
Cost Savings. Reduction in electricity expenses (heat is received at no cost).
Stability. Electrical voltage is supplied continuously 24/7.
Reliability. Timely maintenance of the GPU ensures operation for 64,000 engine hours.
Payback Period. The payback period of the equipment, considering all costs, ranges from 2 to 4 years.
