“microgeneration: Small-scale Renewable Energy Solutions For Homes” – The government says the Small Scale Generation (SSG) scheme in 2023 will enable farmers and other businesses to maximize their participation in the energy transition and provide an easier route to market for community projects.

This will be for renewable electricity generation technologies above 50 kilowatts but smaller than typical commercial generators.

“microgeneration: Small-scale Renewable Energy Solutions For Homes”

Already the Microgeneration Support Scheme (MSS) offers the first phase of support for renewable own-users for installations below 50kW.

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It includes a solar PV grant scheme for residential customers, and later this year businesses, farms and public buildings can also apply for an MSS grant to generate up to 5.9 kilowatts.

Non-residential MSS projects between 6kW and 50kW will be paid by electricity suppliers for exported electricity for 15 years, initially at a rate of €0.135 per kWh. This exported electricity will be limited to 80% of expected production in order to stimulate self-consumption.

Larger commercial generators can receive support under the Renewable Electricity Support Scheme (RESS), which includes a special community category for projects between 0.5 and 5.0 megawatts.

To help inform the design and delivery of the SSG, a public consultation was opened until 29 September 2022.

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SSG will contribute to the 80% renewable electricity target in the 2021 Climate Action Plan and will be a key tool in achieving the increased target of 5.5 gigawatts of solar power by 2030 that was announced by the government in the agreement for sectoral emission ceilings.

SSG will also fit into REPowerEU’s proposed plan to end dependence on fossil fuel imports from Russia before 2030.

REPowerEU includes mandatory rooftop solar PV for all public/commercial buildings with at least 250 square meters of built-up area by 2027 and for all new residential buildings by 2029.

Micro- and small-scale generation can provide opportunities for residential, public, agricultural, commercial and industrial customers to take the first steps towards investing in renewable technologies, while shaping electricity demand and decarbonizing homes and businesses.

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SSG will likely cater to farms with high power demand, such as pig farms or poultry farms, and to export electricity to areas with high local demand where the power grid can accommodate this.

SSG also aims to protect consumers from high fossil fuel prices, including financially vulnerable customers or those at risk of energy poverty.

The Government recognizes that for the SSG to be successful, sufficient network connections and revised planning regulations will be required. Installation and maintenance of projects should also be facilitated.

It is also intended in the design of the SSG to alleviate the level of complexity found in the application to RESS.

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The level of the SSG grant will be set at a level that incentivizes technology uptake where revenues or benefits do not offset costs.

The Department for the Environment, Climate and Communications (DECC) says all responses and suggestions to the SSG public consultation are welcome and will be considered.

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Small-Scale Combined Heat and Power Systems: The Prospects for Distributed Micro-Generator in the UK Net-Zero Transition

By Geoffrey P. Hammond Geoffrey P. Hammond Scilit Preprints.org Google Scholar 1, 2, * and Adam A. Titley Adam A. Titley Scilit Preprints.org Google Scholar 1

Received: 18 May 2022 / Revised: 30 June 2022 / Accepted: 18 August 2022 / Published: 20 August 2022

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Small combined heat and power plants (micro-CHP or mCHP) generate heat in the process of localized electricity production that can be successfully captured and used for domestic heating and water heating. Studies of the relative merits of three alternative grid-connected mCHP plants are reviewed based on an internal combustion engine (ICE), a Stirling engine (SE), and a fuel cell (FC), respectively. Each plant will in most cases result in lower carbon dioxide (CO

) emissions compared to those of the most efficient condensing boilers. In addition, they lead to savings in operating costs for the user, depending on the type of house. However, their capital cost is currently more expensive than a conventional boiler, and the FC is too large. The ICE and SE variants show the greatest economic and environmental benefit. However, the performance and costs associated with these innovative technologies have rapidly improved over the past decade. Comparisons are also made with heat pumps, which are seen as a major low-carbon competitor by the United Kingdom (UK) government. Finally, the potential role of micro-CHP as part of a cluster of different micro-generators attached to contrasting dwellings is considered. The review places mCHP systems in the context of the UK’s transition path to net zero CO

Emissions by 2050 while meeting residential energy demand. However, the lessons learned are applicable in many industrialized countries.

Micro generation; combined heat and power (CHP); micro-CHP; an internal combustion engine; Stirling engine; fuel cell; residential sector; energy efficiency; carbon dioxide emissions

Microgeneration For Homes And Small Businesses

Various types of energy sources are used to heat and power human development, but they also put the quality and long-term viability of the biosphere at risk as a result of undesirable “second-order” effects [1]. Probably the main environmental side effect of energy supply is the prospect of global warming due to the enhanced “greenhouse effect” caused by combustion-generated pollutants [1, 2, 3]. The most recent (2021) scientific assessment from the Intergovernmental Panel on Climate Change (IPCC) [4] states with “high confidence” that observed increases in well-mixed “greenhouse gas” (GHG) concentrations in the atmosphere since 1750 were “unequivocally caused by human activity”. They argue that such greenhouse gas emissions trap long-wave thermal radiation from the Earth’s surface into the atmosphere (which is not strictly a “greenhouse” phenomenon [5]) and that they are the main cause of rising climate temperatures, ie. global warming or warming. Carbon dioxide (CO

; the main greenhouse gas) is thought to have a “residence time” in the atmosphere of 50–200 years; with 20–60% remaining in the air for a thousand years or more [6]. CO

Accounts for about 80% of the total greenhouse gases emitted by the United Kingdom of Great Britain and Northern Ireland (UK), and the energy sector is responsible for about 95% of them [1]. In 2019, global atmospheric CO

Concentrations reached 410 parts per million (ppm) [4]; a rise from about 330 ppm in 1975 [6]. The 2015 Paris Agreement on climate change [ 7 , 8 , 9 , 10 ] aimed to keep temperatures “well below 2 °C above pre-industrial levels and continue efforts to limit temperature increase to 1.5 °C above pre-industrial levels’. Otherwise, climate modelers believe that humanity will be subjected to a greater frequency of extreme weather events [4, 9]: life-threatening heat waves and wildfires, more intense storms, devastating floods and severe droughts. In addition, other looming threats include sea level rise due to melting ice sheets and glaciers, ocean acidification caused by carbon dioxide (CO

Micro Generation & Renewable Energy Systems

) absorption and food shortage due to desertification [9]. Along with these negative environmental “side effects” of heat and electricity production, there are growing concerns about the security of energy supply in the European Union (EU-27) and, in the current context, the United Kingdom [10]. The UK became a net importer of fossil fuels in 2003 [11] and import dependence has increased since then. Therefore, the UK government’s energy policy is mainly aimed at reducing greenhouse gas emissions to reach ‘net zero’ levels (i.e. ‘carbon neutrality’) by 2050 [12, 13] and maintaining of secure, diverse energy supplies [13] . This implies major changes in the way energy is procured, generated and consumed

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