Importance of policy for Energy System Policy Making Transformation using the WSM Method

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The process of developing policies and laws that apply to energy the manufacturing, distribution, and consumption phases systems is known as energy system policy-making. Energy policies are important in directing the growth and evolution of energy systems, providing security of supply, promoting sustainability, and helping to mitigate climate change. Energy sector development is critical for societal advancement, economic prosperity, and environmental sustainability. It incorporates a wide range of potential energy sources such as nuclear power, energy from renewable sources, along with fossil fuels (including sunlight, breeze, water, as well as natural gas). To cut greenhouse gas emissions, battle climate change, and achieve an environmentally friendly and less costly energy future, the world must prioritize the transition to a more resilient and sustainable energy system. The formulation of energy system policy involves a variety of stakeholders, including governments, regulatory bodies, energy companies, industry groups, environmental protection organizations, and the general public. These stakeholders collaborate to establish the objectives of energy policy, develop strategies, and implement the plans. energy system policy is critical in combating climate change due to how it encourages the use all energy produced from renewable sources, efforts to improve energy efficiency, and low-carbon technology. in order to attain aggressive emission reduction targets, research in this sector can give knowledge on effective policy formulation, implementation tactics, and evaluation frameworks. as the world progresses approaching an economy with fewer greenhouse gases, it is critical to understand the causes, impediments, and consequences of the shift to cleaner energy. research can assist identify the optimum governance structures, market mechanisms, and regulatory frameworks for facilitating the changeover to renewable energy sources while achieving carbon reduction goals. access to affordable, dependable energy services is essential for socioeconomic development and the eradication of poverty. research has the potential to shed light on the financial plans and legislative frameworks that might increase access to energy, especially in neglected areas, while addressing concerns of poverty and inequality. In order for the energy system to keep up with technological advancement, policy makers must encourage the use of cutting-edge energy technology. research may give decision-makers knowledge about emerging technologies, prospective implications, and the regulatory frameworks necessary to promote their acceptance and integration into the energy system. In this research we will be using weighted sum method. Clean fossil fuel power generation, natural gas combined cycles (ngcc), integrated gasifier combined cycles (igcc), improved transmission and distribution systems, decentralized power-fuel cells, decentralized power-micro-turbines. Evaluation parameters: impact on energy and carbon intensity, impact on security, impact on energy security, status and technological potential, barriers to commercial use. Result: the WSM method of Ranking Energy System Policy Making in Natural Gas Combined Cycles (NGCC) is got the first rank whereas is the Decentralised Power-fuel Cells is having the Lowest rank. The WSM method of Ranking Energy System Policy Making in Natural Gas Combined Cycles (NGCC) is got the first rank whereas is the Decentralised Power-fuel Cells is having the Lowest rank.