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Global investment in energy transition technologies, including energy efficiency, reached a record high of USD 1.3 trillion in 2022. However, annual investments need to at least quadruple to remain on track to achieve the 1.5°C Scenario in IRENA's World Energy Transitions Outlook 2023. Investment in renewable energy was also unprecedented - at USD 0.5 trillion - but represented less than one third of the average investment needed each year. Investments are also not flowing at the pace or scale needed to accelerate progress towards universal energy access; investments in off-grid renewable energy solutions in 2021 - at USD 0.5 billion - fell far short of the USD 2.3 billion needed annually in off-grid solar products alone (not including mini-grids). This Third Edition of the biannual joint report by the International Renewable Energy Agency (IRENA) and Climate Policy Initiative (CPI) analyses investment trends by technology, sector, region, source of finance and financial instrument in the period 2013-2020 and provides preliminary data for 2021-2022.
Global investments in renewables must grow faster to meet climate goals. This report provides recommendations to scale up investment and mobilise capital.
Thailand has adopted ambitious clean energy targets to meet its long-term climate goals, committing to reach carbon neutrality by 2050 and net zero greenhouse gas (GHG) emissions by 2065. Transforming Thailand’s energy system, alongside broader development objectives, is critical to meeting these goals as the energy sector accounts for 69% of Thailand’s total GHG emissions. The Clean Energy Finance and Investment Roadmap of Thailand (“the Roadmap”) outlines key actions to unlock finance and investment in two clean energy sectors: (i) renewable power, with special attention to small-scale renewable power systems; and (ii) energy efficiency in buildings, with a focus on cooling applications. The two sectors were selected in close consultation with the Department of Alternative Energy Development and Efficiency (DEDE) of the Ministry of Energy of Thailand. The Roadmap provides a comprehensive overview of the progress to date, policy context and challenges to mobilise near-term finance in those sectors, as well as estimates of the finance needs to reach Thailand’s clean energy plans. The report also includes a roadmap action plan, suggesting non-prescriptive recommendations and actions that the Government of Thailand, financial institutions, energy service companies, academia and the international development community active in the country could undertake to foster clean energy investments in Thailand.
Renewable Energy Finance: Theory and Practice, Second Edition integrates the special characteristics of renewable energy with key elements of project finance. Through a mixture of fundamental analysis and real-life examples, readers learn how renewable energy project finance deals mix finance, public policy, legal, engineering and environmental issues. This book investigates the economics of large-scale green power production and incentive mechanisms and how they fit into the global energy industries. It also examines how distributed energy resources such as residential solar and batteries can be financed at the scale needed to play a significant role in the future energy mix. The authors examine how renewable energy projects get financed and built using modern non-recourse project finance structures. It also highlights recent innovations such as Green Bonds and Sustainability Linked Loans that have emerged in the context of ESG investments. The scope of the book is global, and it illustrates how renewable energy project finance has evolved in various places (such as the tax-equity structures used in the United States, due to the corporate tax incentives used there) to cope with local regulatory and policy environments. - Supports efforts to achieve environmental sustainability through renewable financing projects and cleaner production techniques - Provides some real-life case studies to help readers to understand how a project gets financed and built, including the critical interplays between the different financing elements based on how real deals are done - Offers project finance models on a companion website—for wind and solar projects, for example—based on real investment banking experience that can form the basis for student projects and independent study - New to this edition: two new chapters on Addressing Technology Risks for Successful Clean Energy Transition and Financing Green Hydrogen Projects bring the text up to date
Electricity production is the sector with the largest share of global emissions and there are many options for decarbonizing it. Identifying the lowest cost option for achieving decarbonization (and full reliability) is a complex optimization problem at the intersection of economics and engineering. Key determinants are the cost of individual technologies, the geographical potential, the complementarities between energy sources and supporting infrastructure like electricity grids and energy storage. This paper reviews the literature on the subject and draws high-level conclusions from the abundance of specialized analyses. It finds that energy-economy models have strongly changed projections of the optimal electricity mix in recent years. While the models differ in detail, models project that the share of renewable energy, mostly solar and wind power, increases steadily in a “below 2°C” scenario and becomes the dominant source of energy by 2050. An electricity system based on solar and wind power can use flexibility options as a complement instead of baseload energy. Models vary by the degree to which renewable energy is supported by carbon capture and storage, bioenergy, and nuclear energy.
Addressing climate change will entail major challenges for economic growth, employment, inflation, and public finances. Mitigating the impact of global warming will yield benefits and costs that are yet to be quantified and defined for the global economy and for nations, workers, households, and companies. The Green Frontier: Assessing the Economic Implications of Climate Action offers research originally presented at a major conference at the Peterson Institute for International Economics in June 2023 in Washington, DC, organized to shed light on this still unexplored field of study and recommend policies for the future.
People want to create a better world and planet; however, where, and how to start remains the question. Systems Engineering’s problem-solving methodology can help with its ability to answer multiple questions along with connecting actions and impacts. This book uses the Systems Engineering problem-solving methodology to frame how each answer impacts the planet when multiple actions are strung together no matter where they take place. Systems Engineering: Influencing Our Planet and Reengineering Our Actions illustrates a hierarchical Systems Engineering view of the world with each individual in mind as a link in the chain. It uses an Industrial Engineering framework for action implementations and identifies humans’ interconnected actions. The book discusses the implementation of the Systems Engineering problem-solving methodology and leverages existing concepts of environmental sustainability. A template is present for personal actions for environment social responsibility using a Systems Engineering problem-solving approach and focuses on the foundational use of the trademarked DEJI Systems Model® for action design, evaluation, justification, and integration. This book is a perfect read for all academic disciplines and all engineering fields, as well as business and management fields. It reminds us of the Environmental Foundation of NAE’s 14 Grand Challenges and the part we can play.
This book has been written with an aim to enhance the understanding of renewable energy sector policies, finance, and project management. It provides a comprehensive update on renewable energy policies and fiscal instruments, employed globally, with detailed discussions on the Indian policy regime. The book covers various stages of a renewable energy project, from concept to commissioning, and elucidates methodology for computing key financial ratios. A number of case studies, business models, and examples have been presented. Fundamental concepts on technologies, performance, financial tools, and carbon emissions have been explained to enable readers to assimilate the concepts. Data has been presented in easy-to-understand charts, figures, excel spreadsheets, and tables. This book will be useful for the stakeholders associated with the energy sector – corporate professionals, utility personnel, entrepreneurs, investors, bankers, and policymakers. It shall also serve as a textbook for university students as well as research scholars pursuing courses in energy.
This proceedings book encompass a wide range of significant topics within the realms of Technologies, Engineering, Management, and Production, Entrepreneurship, Materials, Textiles, Fashion, and more. The book delves into various areas of Energetics, exploring aspects such as power production, solar power, wind turbines, advanced energetics technologies, energy resource efficiency, global warming and emissions, clean and renewable energies, as well as economic development, global warming, and environmental protections. The Constructions and Transport section features discussions on numerical methods for data manipulation, construction science and technology, transport systems, modeling of transport systems, intelligent transport, traffic management and safety. The Materials segment addresses materials science and application, biopolymers and biotechnology, metallic and composite materials, metallurgical engineering, recycling, manufacturing, and processing of various materials such as paper, plastics, rubber, glass, ceramics, and more. Management and Production topics include technology management, logistic and supply chain management, total quality management, knowledge and innovation management, financial management, marketing research and strategy, industrial marketing, operational research, project management, as well as information technology in enterprises, e-activities, and e-commerce. The book also features an extensive section dedicated to Textiles, covering textile processing and testing, technological advances in the textile industry, ecology and environment in textile production, fiber physics and textile mechanics, finishing, dyeing, and treatment techniques, modeling and simulation, smart and interactive textiles, technical and protective textiles, textile design, fashion, and garment manufacturing, innovations in textile education, as well as leather and footwear technologies.