Research of a Biomass Boiler with Stirling Engine Microgeneration Unit
A number of intergovernmental agreements, the most important of which are the Paris Agreement (UN Framework Convention on Climate Change) and the European Green Deal, provide for resource efficiency and the reduction of greenhouse gas and particulate matter (PM2.5, PM10) emissions to 2030 (short-ter...
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oai:doaj.org-article:4d49d82ca8e14eb8b3effc6299fd93ba2021-12-05T14:11:11ZResearch of a Biomass Boiler with Stirling Engine Microgeneration Unit2255-883710.2478/rtuect-2021-0043https://doaj.org/article/4d49d82ca8e14eb8b3effc6299fd93ba2021-01-01T00:00:00Zhttps://doi.org/10.2478/rtuect-2021-0043https://doaj.org/toc/2255-8837A number of intergovernmental agreements, the most important of which are the Paris Agreement (UN Framework Convention on Climate Change) and the European Green Deal, provide for resource efficiency and the reduction of greenhouse gas and particulate matter (PM2.5, PM10) emissions to 2030 (short-term program to reduce emissions by at least 55 %) and to achieve emissions-neutral production, transport and household activities by 2050. The European Union (EU) has taken the lead in developing and implementing climate change mitigation policies for both industrial and private residential homes in the world through a green course. As an EU country, Latvia has joined both the EU-level climate policy and developed its policy, regulatory documents and action plans for 2021–2030 (Latvia’s National Energy and Climate Plan for 2021–2030), climate policy, including a policy aimed at significantly reducing GHG emissions and increasing efficiency in the household sector. Achieving these climate policy goals requires both a change in human habits and more efficient technologies. This article discusses one of the technological solutions that can reduce both greenhouse gas emissions and the release of PM2.5 and PM10 from individual heating systems in private homes and small commercial facilities. Calculations of electrical energy production in mCHP mode of the system for household self-consumption based on experiments will be done. The technology involves the production of heat from biomass or other types of renewable energy sources while generating electricity for self-consumption. Conclusions of CHP mode on overall efficiency will be done.Kramens JānisVīgants EdgarsLiepiņš IvarsVērnieks LinardsTerjanika ViktorijaSciendoarticleclimate policycogenerationefficiencyemissionsRenewable energy sourcesTJ807-830ENEnvironmental and Climate Technologies, Vol 25, Iss 1, Pp 587-599 (2021) |
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DOAJ |
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EN |
| topic |
climate policy cogeneration efficiency emissions Renewable energy sources TJ807-830 |
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climate policy cogeneration efficiency emissions Renewable energy sources TJ807-830 Kramens Jānis Vīgants Edgars Liepiņš Ivars Vērnieks Linards Terjanika Viktorija Research of a Biomass Boiler with Stirling Engine Microgeneration Unit |
| description |
A number of intergovernmental agreements, the most important of which are the Paris Agreement (UN Framework Convention on Climate Change) and the European Green Deal, provide for resource efficiency and the reduction of greenhouse gas and particulate matter (PM2.5, PM10) emissions to 2030 (short-term program to reduce emissions by at least 55 %) and to achieve emissions-neutral production, transport and household activities by 2050. The European Union (EU) has taken the lead in developing and implementing climate change mitigation policies for both industrial and private residential homes in the world through a green course. As an EU country, Latvia has joined both the EU-level climate policy and developed its policy, regulatory documents and action plans for 2021–2030 (Latvia’s National Energy and Climate Plan for 2021–2030), climate policy, including a policy aimed at significantly reducing GHG emissions and increasing efficiency in the household sector. Achieving these climate policy goals requires both a change in human habits and more efficient technologies. This article discusses one of the technological solutions that can reduce both greenhouse gas emissions and the release of PM2.5 and PM10 from individual heating systems in private homes and small commercial facilities. Calculations of electrical energy production in mCHP mode of the system for household self-consumption based on experiments will be done. The technology involves the production of heat from biomass or other types of renewable energy sources while generating electricity for self-consumption. Conclusions of CHP mode on overall efficiency will be done. |
| format |
article |
| author |
Kramens Jānis Vīgants Edgars Liepiņš Ivars Vērnieks Linards Terjanika Viktorija |
| author_facet |
Kramens Jānis Vīgants Edgars Liepiņš Ivars Vērnieks Linards Terjanika Viktorija |
| author_sort |
Kramens Jānis |
| title |
Research of a Biomass Boiler with Stirling Engine Microgeneration Unit |
| title_short |
Research of a Biomass Boiler with Stirling Engine Microgeneration Unit |
| title_full |
Research of a Biomass Boiler with Stirling Engine Microgeneration Unit |
| title_fullStr |
Research of a Biomass Boiler with Stirling Engine Microgeneration Unit |
| title_full_unstemmed |
Research of a Biomass Boiler with Stirling Engine Microgeneration Unit |
| title_sort |
research of a biomass boiler with stirling engine microgeneration unit |
| publisher |
Sciendo |
| publishDate |
2021 |
| url |
https://doaj.org/article/4d49d82ca8e14eb8b3effc6299fd93ba |
| work_keys_str_mv |
AT kramensjanis researchofabiomassboilerwithstirlingenginemicrogenerationunit AT vigantsedgars researchofabiomassboilerwithstirlingenginemicrogenerationunit AT liepinsivars researchofabiomassboilerwithstirlingenginemicrogenerationunit AT verniekslinards researchofabiomassboilerwithstirlingenginemicrogenerationunit AT terjanikaviktorija researchofabiomassboilerwithstirlingenginemicrogenerationunit |
| _version_ |
1718371296798048256 |