Grid Electricity Generation Systems Comparisons Using the Life Cycle Carbon Emission Inventory
The study compared electricity generation systems using the life cycle carbon emission among the studied Kenyan, Rwandan and Tanzanian grids. The article presents the possible grid electricity generation mixes and purchase which can offer the lowest grid carbon emission. The developed inventory work...
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| Published in: | 2020 IEEE PES/IAS PowerAfrica pp. 1 - 5 |
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| Main Authors: | , , , |
| Format: | Conference Proceeding |
| Language: | English |
| Published: |
IEEE
01-08-2020
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| Abstract | The study compared electricity generation systems using the life cycle carbon emission among the studied Kenyan, Rwandan and Tanzanian grids. The article presents the possible grid electricity generation mixes and purchase which can offer the lowest grid carbon emission. The developed inventory workbooks were adopted to account for residue carbon emissions related to the capacity survival lifetime, retired generation capacity, recycling rate and the current power trade planned in the study area. The current installed and operated grid electricity generation systems-process revealed to be a dominant emission factor in the studied grids. The study revealed the carbon reduction potential from the current grid-carbon emission upon the adoption of 100% renewable grid electricity generation mixes in the study area. The specific monitoring of the electricity generation capacity survival and retirement rates recommended for the future electrical science-policy research. |
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| AbstractList | The study compared electricity generation systems using the life cycle carbon emission among the studied Kenyan, Rwandan and Tanzanian grids. The article presents the possible grid electricity generation mixes and purchase which can offer the lowest grid carbon emission. The developed inventory workbooks were adopted to account for residue carbon emissions related to the capacity survival lifetime, retired generation capacity, recycling rate and the current power trade planned in the study area. The current installed and operated grid electricity generation systems-process revealed to be a dominant emission factor in the studied grids. The study revealed the carbon reduction potential from the current grid-carbon emission upon the adoption of 100% renewable grid electricity generation mixes in the study area. The specific monitoring of the electricity generation capacity survival and retirement rates recommended for the future electrical science-policy research. |
| Author | de Dieu Hakizimana, Jean Mkandawire, Burnet Ijumba, Nelson Chambile, Enock |
| Author_xml | – sequence: 1 givenname: Enock surname: Chambile fullname: Chambile, Enock organization: Sokoine University of Agriculture,Department of Geography and Environmental Studies,Morogoro,Tanzania – sequence: 2 givenname: Nelson surname: Ijumba fullname: Ijumba, Nelson organization: School of Engineering, University of KwaZulu Natal,Durban,South Africa – sequence: 3 givenname: Burnet surname: Mkandawire fullname: Mkandawire, Burnet organization: University of Malawi,Department of Mechanical Engineering,Blantyre,Malawi – sequence: 4 givenname: Jean surname: de Dieu Hakizimana fullname: de Dieu Hakizimana, Jean organization: African Centre of Excellence in Energy for Sustainable Development, University of Rwanda,Kigali,Rwanda |
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| PublicationTitle | 2020 IEEE PES/IAS PowerAfrica |
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| Snippet | The study compared electricity generation systems using the life cycle carbon emission among the studied Kenyan, Rwandan and Tanzanian grids. The article... |
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| SubjectTerms | Carbon dioxide Electric potential Grid electricity generation systems low carbon emission energy resources Monitoring Planning Recycling renewable electricity resources Renewable energy sources Retirement |
| Title | Grid Electricity Generation Systems Comparisons Using the Life Cycle Carbon Emission Inventory |
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