@article{Zakaria_R. Ahmad_Abbas_Mohd Faizal Mohideen Batcha_2021, title={Greenhouse Gas Emission Intensity Assessment for Power Plants in Peninsular Malaysia}, volume={88}, url={https://semarakilmu.com.my/journals/index.php/fluid_mechanics_thermal_sciences/article/view/44}, DOI={10.37934/arfmts.88.2.1426}, abstractNote={<p>The power sector has been playing a vital role in the industrialization, societal and economic development of a nation. In Malaysia, the total power generation for 2014 is 147,480GWh and eventually accounts for 54% of total carbon emissions for that year alone. A study was conducted to quantify the greenhouse gas emission from stationary combustion from several power plants in Peninsular Malaysia, followed by proposal for the emission reduction strategies. For the GHG emissions assessment, the <em>Greenhouse Gas Protocol: A Corporate Accounting and Reporting Standard and Intergovernmental Panel on Climate Change (IPCC)</em> methodologies was adopted. Based on this study, the highest GHG emission intensity were from coal power plants which ranged from 0.67 – 0.85 tCO<sub>2</sub>/ MWh. The GHG emission intensity for natural gas power plants ranged from 0.38 – 0.78 tCO<sub>2</sub>/ MWh. The overall GHG emission intensity for all power plants studied was estimated to be 0.54 tCO<sub>2</sub>/ MWh. The large variations in CO<sub>2</sub> emissions per MWh of electricity generated in fossil fuel power plants were due to differences in generation efficiency, fuel selection, technology, and plant age. In supporting Malaysia’s conditional commitment of 45% GHG emissions intensity reduction target against the country’s GDP, the emission reduction strategies up to 2025 were assessed using three key scenarios namely Business-As-Usual (BAU), Planning (PLAN) and Ambitious (AMB). Based on the analysis, the projection indicates that the emissions intensity for the power sector is about 0.79 tCO<sub>2</sub>/ MWh, 0.49 tCO<sub>2</sub>/ MWh, and 0.44 tCO<sub>2</sub>/ MWh under the BAU, PLN AMB scenarios respectively. Finally, GHG emission reduction potentials were also outlined in this paper.</p>}, number={2}, journal={Journal of Advanced Research in Fluid Mechanics and Thermal Sciences}, author={Zakaria, Sazalina and R. Ahmad, Radin Diana and Abbas, Ahmad Rosly and Mohd Faizal Mohideen Batcha}, year={2021}, month={Oct.}, pages={14–26} }