Micro CHP

Solar Cogeneration and Net Metering Systems

A cogeneration plant often referred to as a combined heat and power plant is tasked with producing electricity and thermal energy in the form of heat or steam, or useful mechanical work, such as shaft power, from the same fuel source. Micro-CHP engine systems are currently based on several different technologies: Internal combustion engines, Stirling engines, Fuel cell, Microturbines, Steam engine/Steam motor using either water or organic chemicals such as refrigerants.

Micro combined heat and power or mCHP applies to single or multi-family homes or small office buildings in the range of up to 50 kW. Local generation has the potential for a higher efficiency than traditional grid-level generators since it lacks the 8-10% energy losses from transporting electricity over long distances as well as 10–15% energy losses from heat transfer in district heating networks due to the difference between the thermal energy carrier - hot water - and the colder external environment.

Most Systems use natural gas as the primary energy source and emit carbon dioxide. A micro-CHP system usually contains a small fuel cell or a heat engine as a prime mover used to rotate a generator which provides electric power, while simultaneously utilizing the waste heat from the prime mover for a building's heating, ventilation, and air conditioning. A micro-CHP generator delivers electricity as the by-product or may generate electricity with heat as the by-product. 

Micro-CHP systems have been facilitated by recent technological developments of small heat engines

Type	2008 Status	2012	2015	2020
Electrical efficiency at rated power	34%	40%	42.5%	45%
CHP energy efficiency	80%	85%	87.5%	90%
Factory cost	$750/kW	$650/kW	$550/kW	$450/kW
Transient response (10%–90% rated power)	5 min	4 min	3 min	2 min
Start-up time from 20 °C ambient temperature	60 min	45 min	30 min	20 min
Degradation with cycling	< 2%/1000 h	0.7%/1000 h	0.5%/1000 h	0.3%/1000 h
Operating lifetime	6,000 h	30,000 h	40,000 h	60,000 h
System availability	97%	97.5%	98%	99%

CPVT Concentrated photovoltaics and thermal also called CHAPS combined heat and power solar, is a cogeneration technology used in concentrated photovoltaics that produce electricity and heat in the same module. The heat may be employed in district and water heating, air conditioning, process heat or desalination.

Net metering micro-CHP systems achieve much of their savings by the value of electrical energy which is replaced by auto produced electricity. A generate-and-resell model supports this as home-generated power exceeding the in-home needs is sold back to the electrical utility. This system is efficient because the energy used is distributed and used instantaneously over the electric grid.

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Cogeneration for Your Neighborhood Small Town and Business

District Energy Networks Employment and Environmental Benefits

Cogeneration involves the recovery of otherwise-wasted thermal energy to produce useful thermal energy or electricity. Off-grid neighborhoods, small towns and businesses can harness a combination of  renewable energy, household composting, wastewater management agricultural and industrial waste-to-resource systems to generate surplus energy that enable self-reliant and resilient neighborhoods in your community.  

Your Neighborhood and Small Town benefit from new, scalable and mobile technologies that are personalized to meet the unique requirements to achieve a closed loop system utilizing available local resources. Biogas can be used in cogeneration systems for production of heat to be used on site and for many other requirements of the zoo-technical and electricity chains. This technology can treat waste from agricultural farms, livestock farms and milk factories as well as produce green energy that can be sold.

District Energy Networks utilize any combination of fossil, recuperative and renewable fuels to create energy and heat that is then distributed from a central system via a pipeline system to business, institutional and private users resulting in functional, economic and ecological advantages Video

Financing Alternatives Traditional banking and leasing options are available along with federal, state and local assistance. Also, build, operate and transfer – bot – programs that reduce upfront investment costs.

Employment Benefits are achieved with robust training programs designed to turn over management and operations of the plant to local personnel.

Environmental Benefits Cogeneration reduces emissions of GHGs and other air pollutants by as much as 40 percent or more. It consumes essentially zero water resources in generating electricity and offers a low-cost approach to adding new electricity generation capacity.  

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For Your Neighborhood Small Town and Business

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