Solar Cell Technology and Applications PDF
Download Solar Cell Technology and Applications PDF book free online – From Solar Cell Technology and Applications PDF:Energy experts predict that wholesale electricity prices could easily rise 35 to 65 percent by 2015. Buy From Amazon
Add to this the growing need for energy independence and the need to reduce carbon emissions and it is very clear that the development of low-cost renewable energy, such as solar energy, is essential for our economy and our national security. With the potential for low-cost, renewable energy that can create jobs while reducing our dependency on foreign oil, solar cell technology provides a very attractive and plausible option.
Presenting a well-balanced mix of theory and applications, Solar Cell Technology and Applications addresses critical design aspects representing cutting-edge solar cell technology. It offers complete coverage of the latest advances in the field, including low-cost, high-efficiency elements and the latest approaches in solar cell designs. The book discusses:
- Performance parameters and cost projections for cells and complete solar energy systems
- Important properties of the semiconductor and compound materials best suited for the fabrication of solar cells
- Techniques for performance improvements in solar cells and panels―emphasizing cost, reliability, and longevity
- Integration of organic dye technology in the development of solar devices
- Mathematical expressions and their derivations―highlighting performance enhancement
Table of Contents
Using conventional nomenclature, a consistent set of symbols, and identical units for ease of comprehension, this time-saving resource supplies pioneering engineers, research scientists, professors, and students with the understanding needed to spark the advancements that must be made to maximize the economic and environmental benefits of this relatively untapped and abundant renewable energy resource.
Fossil fuels such as coal, oil, and gas have been the primary means of energy generation for many centuries. However, thanks to global warming caused by burning
fossil fuels, compounded by greater energy demand due to improved living standards and geopolitical tensions over oil resources and nuclear energy, we are facing
a threat to the planet’s well-being not seen since the last ice age. There is a new
interest in renewable energy sources such as those derived from wind power, hydropower, or conversion of fast-growing crops into ethanol. These are more universally
available and they can potentially help with global warming by reducing the carbon footprint. Then, there is a third kind of energy source based on photovoltaic
conversion of sunlight into electricity by certain widely available semiconductors,
which is arguably the cleanest, most ubiquitous, and potentially the most reliable
Dr. Jha’s Solar Cell Technology and Applications addresses this important topic.
The solar cell concept is a simple reverse biased p-n junction which converts
absorbed light into electron-hole pairs and then into a small dc voltage. The cells
may be stacked to charge a 12V automobile battery or to feed a power grid via a
DC/AC inverter. Fortunately, among all the semiconductors suitable for this purpose, including newly discovered organic semiconductors, compound semiconductors such as CdTe, CuInGaSe2, and GaAs, silicon is one of the most abundant
materials in the earth’s crust.
The book is divided into eight chapters which cover the whole gamut of solar
cell technologies and applications: