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Floating solar photovoltaic installations open new opportunities for scaling up solar generating capacity, especially in countries with high population density and competing uses for available land. Advantages of floating solar over land-based systems include higher energy yield, reduced evaporation, and improved water quality, among others. Combining floating solar with hydropower plants is of particular interest. Flexible hydropower output can be used to smooth the variability of the solar generation, while making better use of existing transmission assets, particularly beneficial in countries with weak grids. With a global estimated potential of 400 gigawatts, under conservative assumptions, floating solar could double the...
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A thesis submitted O'Neil Jesse Nelson in fulfilment for the degree of Master of Engineering to the Auckland University of Technology. The thesis explores the feasibilty of utility scale photovoltaic plants in Jamaica by combatting trechnical challenges with microgrids.
The ongoing transformation of the global energy sector is opening possibilities for many developing countries to reach their energy access and service delivery goals in a lower cost, more sustainable manner, while combating climate change. New technologies, and new ways of using existing technologies such as geospatial data systems, smart grids, and smart meters are helping to develop resilient energy infrastructure and operate it more efficiently. These developments, combined with major cost reductions in renewable energy and storage solutions are presenting a strong prospect of a complete re-orientation of the energy sector towards a more decentralized, decarbonized and digitalized path....
Battery technology is evolving at a breathtaking pace. As performance improves and costs fall, batteries are already critical for consumer electronics, such as mobile phones, and are paving the way for the electric vehicle market. The battery revolution doesn’t end there. Battery systems are also transforming intermittent renewable energy - such as solar and wind - by making them much more financially attractive. Investors are taking notice. But while the versatility of batteries makes them attractive, it is difficult to determine their economic value. Understanding where and why batteries are most successful remains challenging, as each situation is different based...
We're seeking to answer all your electric vehicle (EV) queries. In this video, Mr. Xavier Gordon of Xergy Limited delves into the details of EV charging.
This two minute animation brief a brief overview of how you can optimise your electric vehicle experience.
The recent advances in battery technology and reductions in battery costs have brought battery energy storage systems (BESS) to the point of becoming increasingly cost-effective projects to serve a range of power sector interventions, especially when combined with PV and where diesel is the alternative, or where subsidies or incentives are used. Quantifying the economic impact of BESS requires a high level of temporal granularity in the analysis, because the time-steps required for a reliable assessment of costs and benefits are much shorter than the usual annual time steps of many power sector investment projects. In short, there is as...
This report provides a brief overview of the role of energy storage against the background of current trends in power systems with a particular emphasis on developing countries. It introduces the different ways in which storage can help meet policy objectives and overcome technical challenges in the power sector, it provides guidance on how to determine the value of storage solutions from a system perspective, and discusses relevant aspects of policy, market and regulatory frameworks to facilitate storage deployment. The document is intended to highlight relevant issues, provide guidance to policymakers and regulators in this relatively new area and identify...
The Caribbean Centre for Renewable Energy and Energy Efficiency (CCREEE) invited colleagues from utilities, regulatory bodies, regional universities (lecturers and graduate students) and development partners to join us for a capacity building session focused on data collection. Prerequisites: BSc in Engineering/Relevant Discipline, or Experience in the Energy Industry Course Learning Outcomes: Understanding of the data required to complete an IRRP and the relevance of the data to the process Course Length: 2 hours (1:30 p.m. – 3:30 p.m. AST) Course Content: Weather and climate data, grid data, risk, vulnerabilities, power system data etc. This video is a complete recording of...
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