This includes a range of domestic hot water (DHW) cases, such as clean in place (CIP) systems in industrial settings or faucets and showers in hotels and hospitals, or heating hot water (HHW) applications, such as space heating. Hot water can be used in many potable and non-potable heating applications. Hot Water: The most common and cost-effective usage for CHP thermal output is to generate hot water. The heat generated by CHP microgrids can be captured and used for thermal applications in the form of hot water, steam, chilled water, and hot air. ![]() Thermal Applications 101ĬHP microgrids can integrate with hot water, steam, or chilled water systems to help support a range of specific facility thermal usages. The heat from these microgrids can be easily integrated into a facility’s existing thermal systems to support the site’s heat, steam, and chilled water loads - a benefit that other types of microgrids can’t necessarily offer.Įvery site has a unique set of thermal needs, and the good news for facility managers is that CHP, also called cogeneration, easily integrates with a wide range of heating and cooling use cases - offering cost savings, emissions reductions, and both electric and thermal resiliency in the process. On-site combined heat and power (CHP) systems create heat as a byproduct of the power generation process. Cogeneration systems offer facilities a way to support a range of thermal loads thanks to the flexible underlying technology, typically resulting in cost savings and emissions reductions.
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