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Новости
03.06.2025
Готовимся к World Environment Day! Публикация в индийском журнале на портеле oemupdate.com
Индусы продолжают повествование об экологичных инновациях, на этот раз опубликовали статью про Energy Management (управление энергией на производстве), рассказали об эко-устойчивости М-цикла при генерации энергии.Автор статьи - Алексей Поляков, эксперт, член Правления Совета.
https://www.oemupdate.com/industry-report/endless-creation-powered-by-energy/
Алексей рекомендует цикл Майсоценко (М-цикл), в котором реализованы пять ключевых термодинамических инноваций - мокрое горение, охлаждение на входе, фазовый переход рабочего вещества, рекуперация отработанного тепла и высокая энтальпия при низкой температуре, что делает его одним из самых эффективных и доступных способов преобразования тепла в механическую или электрическую энергию. Мокрое сжигание значительно снижает выбросы NOx в 10 раз, а выбросы CO - в 2 раза, удваивая при этом тепловую эффективность производства. Охлаждение на входе помогает увеличить мощность газовой турбины на 25 % в жаркую погоду за счет охлаждения всасываемого воздуха ниже температуры мокрого термометра. Рекуперация отработанного тепла с помощью M-цикла использует улучшенное увлажнение для максимального повторного использования энергии и повышения общей эффективности системы. M-Power Cycle основывается на этих принципах и обеспечивает высокую тепловую эффективность, используя возобновляемую энергию воздуха, с минимальными изменениями в конструкции существующих энергетических систем. Это делает M-Cycle инновационным и устойчивым решением по управлению энергией для производителей, нацеленных на снижение выбросов и улучшение энергопотребления.
Полный текст статьи:
"M-CYCLE IN INDIA AGAIN
featuring Energy Management in Manufacturing article in OEM Update eMagazine May 2025
Energy Management includes improving Power production and HVAC (heating and cooling) applications to optimize energy performance.
Energy production, energy transmission, and energy use are the three major pillars of energy management in industrial and manufacturing sectors. Maisotsenko Cycle proposes 5 thermodynamic innovations on the first Energy production stage for improvement of turbines and engines (via Wet Combustion, Inlet Cooling, Phase Change of Working Substance, Waste Heat Recovery, High Enthalpy vs. High Temp. & Pressure). M-Cycle is one of the best innovative technologies for replacing many conventional energy conversion methods or forming zero-carbon energy conversion cycles with great potential in the inspiring manipulation of water vapor in air or other gas. Today the M-Cycle in power generation is the most efficient and cheapest conversion of any kind of heat to mechanical or electrical energy through the different known power combustion cycles. It was confirmed by many researchers from around the world that today the M-Power Cycle is the best for producing power using different power cycles according to a unique effective heat recovery process.
Wet Combustion is humidification of an air - oxidant by natural gas burning greatly influences the combustion kinetics and harmful substances formation. An application of water vapor by supplying the combustion chamber is more expedient than an injection of the water. Wet combustion process through the M-Cycle provides essential environmental advantages due to reduction the of NOx emission by 10X and 2X the decrease of CO effluents. At the same time, due to the efficient process of utilizing the heat of exhaust gases through the M-Cycle, it is possible to simultaneously increase the thermal efficiency of the engine by more than two times.
Inlet Cooling is a group of technologies and techniques consisting of cooling down the intake air of the gas turbine. It can enhance gas turbine output when a significant percentage of their operation is during hot months. Climate conditions affect both the thermal efficiency and exergy efficiency of the gas turbine cycle significantly. During hot weather, power output decreases up to 35% below the rated capacity. The M-Cycle Inlet cooling has huge advantages to sensible cool below the wet bulb and approach the dew point temperature of the incoming airstream. It has the potential to add about 25 percent more capacity to a gas turbine’s output.
Waste Heat Recovery is the process of heat integration or reusing heat energy that would otherwise be disposed of or simply released into the atmosphere. By recovering waste heat, power plants can reduce energy costs and CO2 emissions, while simultaneously increasing energy efficiency. The Maisotsenko’s Cycle-based waste heat recovery system with enhanced humidification exploits the maximum waste heat recovery potential of the gas turbine. The integration of Maisotsenko’s Cycle-based waste heat recovery system with a comprehensive thermodynamic model offers valuable insights into enhancing the efficiency, cost-effectiveness, and environmental impact of gas turbines by advance thermodynamics and sustainable energy solutions.
The M-Power Cycle is a new and proven revolution thermodynamic concept for converting heat into work or electricity using renewable air energy, the thermal efficiency of which is far superior to all known power cycles and combustion engines. A high enthalpy of the working fluid at low temperature, a real high thermal efficiency, no requirement for design changes of elements to the power systems, and almost full recovery of the waste heat for mechanical work or electricity make Maisotsenko Cycle a unique tool in energy production and use.
“The Maisotsenko Cycle can greatly help industrial energy production by offering a pathway to ultra-efficient, low-emission power generation by turning waste heat into a strategic asset and scaling sustainable manufacturing.”
Alexey Polyakov, General Manager of Air To MC2"