Renewable energy systems are technologies that can generate electricity from solar, wind, hydroelectric, biomass, and other renewable resources. This research project aims to find the best technology combinations for several scenarios in Malaysia. The strategies analysed by evaluating investments each of decided Malaysia, Pekan, Pahang Mersing, Johor, using HOMER Pro software. finding shows PV–wind hybrid system has a better net present cost (NPC) than both scenarios, which USD −299,762.16...

The primary limitation of photovoltaic thermal (PVT) technologies is the adverse effect solar irradiance-induced heat absorption. In order to enhance efficiency system, it essential incorporate a cooling mechanism. utilization reversed circular flow jet impingement (RCFJI) was implemented as mechanism for bifacial PVT collector. This study aims analyze exergy RCFJI An indoor experiment conducted using simulator with irradiance 500–900W/m2 and mass rate 0.01–0.14 kg/s. findings revealed that...

The increasing prominence of photovoltaic modules as a cornerstone sustainable energy systems is well-established. Nevertheless, the deleterious impact thermal dissipation, often resulting in efficiency losses 10-15%, remains significant challenge. Researchers are exploring new cooling techniques to improve solar panels. One promising approach Multidirectional Tapered Fin Heat Sink (MTFHS). This innovative design can capture wind from multiple directions, making it more effective outdoors. A...

Abstract This study presents and assesses the novelty of a cutting‐edge solar‐powered automated irrigation system that incorporates single‐axis solar tracker. The research entails meticulous development prototype, followed by comprehensive experimental scrutiny spanning 3 days, from 8:00 AM to 6:00 PM. In unique approach, we benchmark findings against previous endeavours, highlighting transformative potential our innovative design. Our harnesses singular‐axis tracking mechanism alongside...

As the world shifts towards a more sustainable future, solar energy has emerged as preeminent and economically feasible alternative to traditional sources, gaining widespread adoption. This study presents reversed circular flow jet impingement (RCFJI) which aims improve performance of bifacial PVT collector. An indoor experiment using simulator assess energy, exergy, economic efficiency RCFJI The was carried out irradiance ranging from 500-900W/m2 mass rate between 0.01-0.14 kg/s. Energy...

Jet impingement mechanism has been extensively studied in previous research due to its ability enhance the efficiency of a solar collector. The photovoltaic (PV) module temperature can be effectively lowered while preserving uniformity and collector performance. Since jet offers such broad application, numerous studies have focused on heat transfer characteristic. This article provides comprehensive review recent collectors. Additionally, design performance cooling methods air collectors,...

The advantages of natural light in construction include connecting to the outside world, giving rooms a bigger appearance, and allowing sense time knowing weather. Additionally, it reduces energy consumption associated with artificial lighting. sun, moon, stars, thermal heat are all sources light. Energy-saving measures design elements integrated into lighting buildings. By developing systems, has been improved efficiency. Solar can be directly used, reduced. Vision enhanced by creating an...

The study presents the design of a highly efficient cooking stove for rural applications, along with performance evaluation. Drawing on diverse literature, existing works were analysed to derive enhancements. Utilizing SolidWorks and Creo, model was constructed, followed by material selection cost analysis using accessible market components. ANSYS Fluent enabled flow both optimal real configurations, complemented experimental tests validation. Results underscore stove's efficiency, evident...

Energy harvesting monitoring systems have become more important as the Internet of Things (IoT) grown. An intelligent system to monitor rainwater at UNITEN COE BN is being designed and developed in this study. Rainwater operations will be improved by developing an system. Monitoring techniques are studied, sensors for simulation. Smart implemented study, contributing field smart systems. collection, storage usage monitored analyzed with data acquisition Water turbine speed, voltage, rainfall...