Enhancing the Efficiency of Energy Storage and Management Systems for Hybrid Renewable Energy Applications in Tall Apartment Buildings
Abstract
Given the current situation and projected future trends for population increase and the shortage of fossil fuels, distributed energy systems and renewable energy sources may offer a viable answer to the pressing problem of a steady and clean energy supply. Because hybrid renewable energy systems are unique, more thorough research is necessary. The purpose of this study is to evaluate the application of renewable energy sources (RES) for the provision of heat and electricity to a typical Indian household, as well as the system's cost-effectiveness. The impact of the feed-in tariff modification on the investment's value is analyzed. We look at a tiny, grid-connected hybrid system to meet the energy needs of a normal household. It consists of solar photovoltaic panels, a tiny wind turbine, and a geothermal heat pump for heating and cooling. Software called RET Screen was used to aid with system analysis. Techno-economic study results indicate that modest wind turbines are not as cost-effective to invest in as geothermal heat pumps and solar panels. In this article, we investigate the feasibility of producing a third of a high-rise building's overall energy usage. For the case study, we took into consideration a typical high-raised building that is 70 meters tall. We have suggested a hybrid system that combines the power of the sun, wind, and hydro to create electricity. Since high-rise building rooftops are typically empty, putting solar panels allows us to harness the building's solar energy. computation of potential energy production from various power sources, such as solar, wind, rain, R.O. waste water, and grey water. In our nation, numerous towering buildings have been built in various cities. Currently, coal-based power plants or other conventional power sources provide the majority of the energy needed for these buildings. These sources are more expensive and produce more greenhouse gas emissions within buildings than renewable energy sources.