Solar Energy in the 80s covers the proceedings of the Conference on Solar Energy held in London. The book presents papers that discuss issues concerning the decision-making aspect of solar energy technology. The text outlines the technological options of various solar energy technologies, such as the system, equipment level of investment, sales policy, operational conditions service, legal and social aspects, and economic subsidies. The book will be of great interest to individuals who require a good overview of different technology that utilizes solar energy.
Solar Power Generation is a concise, up-to-date, and readable guide providing an introduction to the leading renewable power generation technology. It includes detailed descriptions of solar photovoltaic and solar thermal generation systems, and demystifies the relevant solar energy technology functions in practice while also exploring economic and environmental risk factors. Engineers, managers, policymakers, and those involved in planning and delivering energy resources will find this reference a valuable guide to help establish a reliable power supply to address social and economic objectives. - Focuses on the evolution and developments in solar energy generation - Evaluates the economic and environmental viability of the systems with concise diagrams and accessible explanations - Demystifies the relevant solar energy technology functions in practice - Explores economic and environmental risk factors
Solar Trillions reveals market opportunities worth $35+ trillion of the $382 Trillion we'll spend in energy by 2050. The author shows why solar is the only clean energy source that can scale and why disruptive tech make it inevitable. Here are the seven amazing opportunities. 1: Desert Power: $9 trillion To provide all of America's electricity today, we would need just 100-by-100-mile square of desert. 2: Powering Industry: $7.1 trillion 24/7 solar power is here-and can reliably run factories & industry. 3. Island/Village Power: $2.6 trillion Two billion people around the world pay up to 10 times today's PV cost. 4: Power to the People: $8.7 trillion With Solar BIPV, walls, windows, and bricks will make money for building owners. 5: Bottled Electricity: $1.5 trillion We will hit peak water before we hit peak oil. 6: Energy in a Box: $5 trillion The race for electricity batteries is on. Solar thermal is ahead. 7: Internet Times Ten: $6.5 trillion The eBay of electricity is coming.
Still the World's Most Advanced Text on Earth Sheltering and Passive Solar Design! Passive Annual Heat Storage (PAHS) is a method of collecting heat in the summertime, by cooling the home naturally, storing it in the earth naturally, then returning the heat to the home in the winter. It includes extensive use of natural heat flow methods and the arrangement of building materials to direct heat from wherever you get it to wherever you want it, all without using machinery to make it work. With the rising cost of energy, all home builders should become familiar with basic PAHS principles. The goal of Passive Annual Heat Storage is to provide a method of placing building materials and organizing construction so the comfortable environments produced are continuously pleasant. The resulting subterranean home interiors are balanced with the natural environment and are able to extract all of their energy needs from their surroundings without using any commercial energy sources. Thus, there is no longer any need for using mechanical devices or causing any disruption in global ecosystems. Build a home that naturally stays warm in the winter and cool in the summer!
From Space to Earth tracks the evolution of the technology of photovoltaics, the use of solar cells to convert the sun's energy into electricity. John Perlin's painstaking research results in a fascinating account of the development of this technology, from its shaky nineteenth-century beginnings mired in scientific controversy to its high-visibility success in the space program, to its current position as a versatile and promising power source.
Solar energy is a substantial global industry, one that has generated trade disputes among superpowers, threatened the solvency of large energy companies, and prompted serious reconsideration of electric utility regulation rooted in the 1930s. One of the biggest payoffs from solar’s success is not the clean inexpensive electricity it can produce, but the lessons it provides for innovation in other technologies needed to address climate change. Despite the large literature on solar, including analyses of increasingly detailed datasets, the question as to how solar became inexpensive and why it took so long still remains unanswered. Drawing on developments in the US, Japan, Germany, Australia, and China, this book provides a truly comprehensive and international explanation for how solar has become inexpensive. Understanding the reasons for solar’s success enables us to take full advantage of solar’s potential. It can also teach us how to support other low-carbon technologies with analogous properties, including small modular nuclear reactors and direct air capture. However, the urgency of addressing climate change means that a key challenge in applying the solar model is in finding ways to speed up innovation. Offering suggestions and policy recommendations for accelerated innovation is another key contribution of this book. This book will be of great interest to students and scholars of energy technology and innovation, climate change and energy analysis and policy, as well as practitioners and policymakers working in the existing and emerging energy industries.
Solar energy is an abundant resource. Once a curiosity, solar electric systems are becoming commonplace. As we transition away from finite and polluting fossil fuels, clean, reliable, and affordable renewable technologies such as solar electricity will become the mainstay of our energy supply. Solar Electricity Basics provides a clear understanding of the sun, solar energy, and solar electric systems. It discusses the theoretical, practical and economic aspects of residential solar installations including: Inverters Batteries and controllers Costs of solar electric systems Financial incentives System installation and maintenance Permits, covenants, utility interconnection and buying a system. Whether your goal is to lower your energy bill through a grid-connected system or to achieve complete energy independence, Solar Electricity Basics is the introduction you need-no PhD required!
