This study explores the integration of renewable energy and energy storage systems in microgrids, focusing on two typical cases: Penghu's Tongpan Island and the Xinglong D2 social housing district in Wenshan District, Taipei. The primary aim is to analyze suitable microgrid types, main renewable energy sources, and optimal energy storage system capacities through case data and economic benefit evaluations. Tongpan Island serves as a typical example of an island microgrid, primarily relying on diesel generators for electricity, supplemented by solar photovoltaic (PV) systems and energy storage devices. The research results indicate that choosing solar PV systems as the renewable energy source is based on multiple factors including technical feasibility, economic benefits, environmental impact, and social acceptance. Although the island has abundant wind energy resources, solar PV systems offer advantages in terms of installation and maintenance, operational stability, and environmental impact. Evaluations using the Net Present Value (NPV) and Internal Rate of Return (IRR) methods show that despite high initial investments, the Tongpan Island microgrid system demonstrates good economic benefits. The case of the Xinglong D2 social housing district in Wenshan District, Taipei, shows that the application of community microgrids in urban settings can effectively enhance energy utilization efficiency and reduce dependence on municipal electricity. This case involves the installation of a 10KW solar PV system and a 48KWH energy storage device, combined with a Building Energy Management System (BEMS), achieving effective use of renewable energy and emergency power supply needs. Despite limitations in installation space and regulatory compliance, the community's energy storage capacity, although modest, can provide necessary power support during emergencies. The application of BEMS in microgrids holds significant importance. BEMS can monitor and manage community electricity consumption data, use smart algorithms for energy dispatching, and achieve efficient energy utilization. In this study, BEMS coordinates the management of municipal electricity, self-generation, and energy storage devices, ensuring stable power supply to the community while reducing energy costs. The study concludes that promoting the application of renewable energy and enhancing energy storage technology development are future development directions. Governments and enterprises should increase investment in energy storage technology research and development to improve the efficiency and safety of storage devices. Simultaneously, relevant policies and regulations should be established and refined to promote the construction of smart energy management systems, encouraging businesses and residents to install and use BEMS. Through social advocacy and education, public awareness and acceptance of renewable energy and smart energy management systems can be improved, promoting increased awareness of energy conservation and emission reduction. In summary, this study, through the analysis of two representative cases, reveals the feasibility and economic benefits of integrating renewable energy and energy storage systems in microgrids. It is hoped that the results of this study can provide a reference for research and practice in related fields, promoting the widespread application of renewable energy and smart energy management systems to achieve sustainable energy development. Keywords: Renewable Energy, Solar Photovoltaics, Energy Storage Systems, Microgrid, Energy Saving and Carbon Reduction