The global combined heat & power market is estimated to reach USD 20.69 Billion in 2018 and is projected to reach USD 27.01 Billion by 2023, at a CAGR of 5.48%, during the forecast period. The market is set to grow due to the increasing demand for energy efficiency and government incentives and programs to promote CHP.
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The Above 300 MW segment is expected to hold the largest share of the combined heat & power market, by capacity, during the forecast period.
The Above 300 MW segment consists of large coal, nuclear, or natural gas fired power plants, with gas turbines and steam turbines as the prime movers. The segment caters mainly to the utilities, district heating & cooling end-users. The segment is expected to be driven by the rising adoption of natural gas fired power generation in the Asia Pacific region, particularly in China and South Korea. The phasing out of coal-based power generation has given rise to large-scale natural gas-fired cogeneration plants. The rapid demand for heat and steam in industries and requirement of municipal district heating & cooling is driving the growth in this segment. The shale gas boom in North America is another driving factor for growth in this segment, with utility-scale natural gas fired power plants being set up in the region.
The utilities, district heating & cooling segment is expected to dominate the combined heat & power market, by end-user, in 2018.
The utilities, district heating & cooling segment refers to the supply of thermal energy generated at a central facility for applications such as space heating or water heating, steam provision throughout a city or district, and industrial complex or for cooling through trigeneration to provide chilled water. Utilities can use CHP systems to monetize heat generated as a by-product of electricity generation, combined with the savings from high operational efficiency of these systems to up to as much as 80% as compared with just 30% for non-CHP setup. The market for utilities, district heating & cooling segment will be driven by increasing energy efficiency regulations and compliance needs for utilities, the need to reduce carbon emissions and the cost savings offered by CHP systems, especially in regions of Europe and Asia Pacific.
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Asia Pacific: Expected to be the leading market for CHP during the forecast period.
The Combined Heat & Power Market has been analyzed with respect to 6 regions, namely, North America, Europe, Asia Pacific, South America, the Middle East, and Africa. The market in Asia Pacific is expected to lead the Combined Heat & Power market, by region. The increase in natural gas in the energy mix and need for energy efficiency in countries such as China, South Korea, and India is driving the market for Combined Heat & Power in the region. Rise in distributed power generation and emerging technologies such as fuel cell based micro-CHP has opened new opportunities for growth in the region.
Key Market Players –
The major players in the Combined Heat & Power Market are GE, Siemens, Veolia, Wartsila, 2G Energy, Man Diesel & Turbo, Mitsubishi Hitachi Power Systems, Clarke Energy, Caterpillar Energy Solutions (MWM), AB Holding, Capstone, and FuelCell Energy
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Recent Developments –
- In April 2018, GE signed an agreement with GreenTech to supply 21 Jenbacher gas engines for CHP generation in Russian food and beverage, glass, agriculture and chemical processes industries. With a total capacity of 26 MW, the engines are expected to be delivered by the end of 2018.
- In February 2018, 2G Energy installed a 600 kW CHP plant at the KB Specialty Foods facility in Indiana, US. The plant was expected to utilize biogas produced from waste food in the plant and convert it into electrical and thermal power.
- In January 2018, Veolia installed a CHP plant for Seafield WWTP in Scotland, UK. The plant was expected to generate its own energy from 55% to about 85% in 2017, by boosting the renewable energy derived from a combination anaerobic digestion of sludge and biogas-fired CHP plants.
- In May 2017, Siemens received an order to build a new cogeneration plant in the Marzahn district of Berlin. This cogeneration facility was expected to produce electric power while simultaneously supplying the east side of the German capital with district heating. The plant has an electrical generating capacity of 260 MW and a thermal capacity of 230 MW.