Analytical and computer modelling of a thermo-mechanical vapour compression system for space air conditioning in buildings
Air conditioning in buildings is crucial for maintaining indoor thermal comfort, but traditional vapor compression systems consume significant electrical power and contribute to carbon footprints. The research focuses on an innovative thermo-mechanical vapour compression system designed for space air conditioning, aiming to address energy efficiency and environmental impact. By utilizing analytical and computer modelling techniques, the study provides insight into improving the performance of air conditioning systems while reducing energy consumption and emissions.
Impact of Ground Heat Source Addition on Main Performance Parameters of Solar Chimney Power Plants
Solar chimney power plants (SCPPs) are a promising alternative to fossil fuels for generating power sustainably. This study investigates the impact of integrating ground heat sources on the key performance parameters of SCPPs. By conducting a numerical study, the research evaluates the potential enhancements in power output and operational efficiency by incorporating ground heat sources. The findings offer valuable insights into optimizing solar energy systems and improving their overall performance.
Numerical investigation into the thermal interference of slinky ground heat exchangers
Slinky ground heat exchangers play a vital role in geothermal systems, but their thermal performance can be affected by various factors. This research delves into a numerical investigation using a sophisticated 3D model to analyze the thermal interference of slinky ground heat exchangers under different operating conditions. By exploring the impact of factors like trench separation and soil properties, the study aims to optimize the design and operation of ground heat exchangers for enhanced efficiency and sustainability.
Towards sustainable urban living: A holistic energy strategy for electric vehicle and heat pump adoption in residential communities
The adoption of electric vehicles (EVs) and heat pumps (HPs) is crucial for reducing carbon emissions and promoting sustainability in urban environments. This research proposes a holistic energy strategy that integrates EVs and HPs in residential communities to minimize environmental impact and enhance energy efficiency. By evaluating the potential challenges and benefits of EV and HP adoption, the study offers a comprehensive approach towards achieving sustainable urban living through innovative energy solutions.
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The TexGen platform offers a comprehensive repository of research outputs in the field of Engineering - Energy, showcasing diverse studies and publications that address critical energy challenges. With a focus on innovative solutions and sustainable practices, the platform provides valuable insights into cutting-edge research and developments in energy engineering. By exploring the diverse range of research outputs available on TexGen, stakeholders can stay informed about the latest trends and advancements in the energy sector, fostering collaboration and knowledge exchange for a more sustainable future.