Solar Water Heating--Revised & Expanded Edition
eBook - ePub
Available until 23 Dec |Learn more

Solar Water Heating--Revised & Expanded Edition

A Comprehensive Guide to Solar Water and Space Heating Systems

  1. 256 pages
  2. English
  3. ePUB (mobile friendly)
  4. Available on iOS & Android
eBook - ePub
Available until 23 Dec |Learn more

Solar Water Heating--Revised & Expanded Edition

A Comprehensive Guide to Solar Water and Space Heating Systems

About this book

Heating water with the sun is a practice almost as old as humankind itself. Solar Water Heating, now completely revised and expanded, is the definitive guide to this clean and cost-effective technology.

Beginning with a review of the history of solar water and space heating systems from prehistory to the present, Solar Water Heating presents an introduction to modern solar energy systems, energy conservation, and energy economics. Drawing on the authors' experiences as designers and installers of these systems, the book goes on to cover:

  • Types of solar collectors, solar water, and space heating systems and solar pool heating systems, including their advantages and disadvantages
  • System components, their installation, operation, and maintenance
  • System sizing and siting
  • Choosing the appropriate system

This book focuses on the financial aspects of solar water or space heating systems, clearly showing that such systems generate significant savings in the long run. With many diagrams and illustrations to complement the clearly written text, this book is designed for a wide readership ranging from the curious homeowner to the serious student or professional.

Bob Ramlow has been involved in renewable energy system sales, installation, and manufacturing since 1976. He is an IREC/ISPQ certified solar thermal independent master trainer and a NABCEP certified solar thermal installer. He writes and teaches workshops about solar energy.

Benjamin Nusz has worked as an installer, site assessor, designer, and consultant for solar thermal systems. He currently trains renewable thermal technicians at Mid-State Technical College in Wisconsin.

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Yes, you can access Solar Water Heating--Revised & Expanded Edition by Bob Ramlow, Benjamin Nusz in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Fossil Fuels. We have over one million books available in our catalogue for you to explore.
1
HISTORY
THE SUN IS THE CENTER of our solar system. The energy it releases warms our planet and powers all life on earth. Through photosynthesis, solar energy is transformed into organic matter — the food that makes our life possible. The fossil fuels we use are actually stored solar energy. Solar energy is also incredibly abundant. Half a day’s sunlight falling on the US provides enough energy to run our country for one year.
We often think that modern societies were the first to use solar energy. Not true. Early cave dwellers preferred caves that had openings facing southeast. This allowed the morning sun to warm them up without overheating in the warm months. Native Americans in the Southwest oriented their pueblo dwellings so the low winter sun would heat the buildings by direct solar radiation. Cliffs and overhangs blocked the sun during the summer months, helping to keep the dwellings cooler when the sun was high in the sky.
The ancient Greeks, with a climate that was sunny almost year round, built their houses to take advantage of the sun’s rays during the moderately cool winters and to avoid the sun’s heat during the summer. Modern excavations of many classic Greek cities show that individual homes were oriented toward the south and entire cities were planned to allow equal access to the winter sun. It is interesting to note that by 500 bc, when the Greeks had almost completely deforested their whole country and needed to find a reliable alternative fuel source, they chose solar energy.
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The Roman Empire advanced solar technology by adapting home-building design to various climates, using clear window coverings, such as glass, to enhance the effectiveness of solar heating and expanding solar architecture to include greenhouses and huge public bath houses. Solar architecture became so much a part of Roman life that sunrights guarantees were eventually enacted into Roman law. This society depleted its forest resource as well.
After the fall of the Roman Empire, the use of glass to enhance solar gain in buildings was mostly forgotten. Interest in passive solar architecture and greenhouses was rekindled during the Renaissance. As technologies advanced, glass manufacturing was revived, resulting in an increased use of glass windows. This also made large greenhouses possible for agricultural purposes as well as for recreation.
In the 1700s, a leading naturalist named Horace de Saussure began to experiment with solar hot boxes. These precursors to today’s active solar collectors were simple insulated boxes painted black on the inside and with one side made of glass. They were very similar to today’s solar cookers and, in fact, many early experimenters used their hot boxes for cooking. Many of the solar principles we use today were identified during those early experiments. Unfortunately, these experiments resulted in few successful applications.
During the late 1800s, domestic water piped directly into homes became more common. Like today, this water supply was cold. People soon wanted hot running water. At first, all water heaters were either coal or wood fired. In 1891 Clarence M. Kemp patented the world’s first commercial solar water heater, called the “Climax.” It was a black-painted water tank mounted in an insulated box with one side made of glass.
The Climax was instantly popular in California, where it could be used year round. Thousands of Climaxes and similar systems were installed in a short time. They all fall into what we now call “batch-type” solar water heaters: the sun heats the water directly in the tank(s) and the hot water is stored right in the collector tank(s).
In 1909 a California engineer named William J. Bailey began selling a new system he called the “Day and Night” solar water heater. It consisted of a solar collector and a separate storage tank mounted above the collector. His tanks were among the first to be insulated for better heat retention, and his collectors consisted of a pipe grid attached to a flat plate and enclosed in a compact, glazed and insulated enclosure. Cold water dropped into the collector, where it was heated by the sun. As the water was heated, it rose into the insulated storage tank for later use. Today, we call these heaters “flat plate” collectors.
In 1913 a freak cold snap hit southern California and many Day and Night collectors froze and burst. To eliminate future freezing problems, Bailey installed a coil of pipe within the storage tank to act as a heat exchanger. Then he used an alcohol and water mixture as the antifreeze solution for his heat exchange medium. As the sun warmed the solar fluid (or heat transfer fluid), it rose to the storage tank heat exchanger. As the heat from the solar fluid was transferred to the water in the storage tank, the solar fluid cooled and dropped back to the collectors for further heating. This system is described today as a “closed-loop” solar water heating system.
Between 1920 and 1930, huge deposits of natural gas were found in the Los Angeles area. To capitalize on this new, cheap fuel source, Bailey began to manufacture a thermostatically controlled gas water heater. Sales of his gas water heater took off, and sales of solar water heaters plummeted. Gas companies offered generous incentives to hook up to their new gas lines, further hindering sales of solar heaters. Bailey made his last batch of solar water heaters in 1941.
During this same time period, entrepreneurs took the California solar water heater designs to Florida and met with great success. In a building boom between 1935 and 1941, up to 60,000 systems were installed. More than half the population of Miami used solar water heaters by 1941, and 80 percent of the homes built between 1937 and 1941 were solar equipped.
World War II all but halted solar water heater installations. Copper was a major component of solar water heaters, and the use of copper was frozen for all nonmilitary use. When the war was over, solar companies came back, but other factors soon led to their decline. Existing solar water heaters were too small to meet the new, increased demand for automatic washing machines, automatic dishwashers, and other similar appliances. In a final blow, electrical rates fell to half the cost they had been before the war, making electric water heating much more affordable. In an aggressive campaign to increase electrical consumption, Florida Power and Light even offered free installation of electric water heaters. By this time, many of the original, aging solar water heaters were experiencing leaking tanks and plugged pipes. Many homeowners found it cheaper to install an inexpensive electric water heater than to fix their solar water heating systems.
In the United States, the 1950s and ’60s were years of unbridled energy consumption. For all but a few people, solar energy was a nonissue. This changed with the first Arab oil embargo in 1973, when Americans experienced long lines at gas stations, limited supplies of other oil products, such as heating fuel, and energy prices that doubled and tripled. President Jimmy Carter helped make energy efficiency and the use of renewable energy a national priority, symbolized by his donning a sweater and installing a solar water heater on the White House roof.
The oil embargo profoundly changed the United States. Coming at the end of the Vietnam War, it added to America’s realization of its vulnerability. For the first time since World War II, Americans looked at the way they used energy. Consumers began to demand higher energy-efficiency standards in everything from homes to automobiles. People also looked to renewable energy sources to replace some of the fossil fuels they were using.
The whole nation took on the challenge of reducing its dependence on oil from the Middle East. Renewable energy sources were rediscovered, and new companies sprouted everywhere to fill the growing demand. Government spending on renewable energy research and development increased from about $1 million to more than $400 million. While this was a small fraction of the attention and money given to the nuclear industry, it was a dramatic change nonetheless.
During the late ’70s and early ’80s, installing solar energy systems was seen as patriotic. The federal government, as well as many state governments, passed legislation encouraging the use of solar energy systems through tax credits. Federal incentives combined with state incentives (where available) often offset more than 50 percent of the cost of many renewable energy systems. A new renewable energy boom began. People looked to wind-powered electric systems, active space heating systems, advanced passive solar-heating systems, the newly emerging solar electric systems, and advances in energy-saving technologies as well as the old reliable solar water heaters.
Most of the solar energy companies that sprang up in the 1980s were reliable firms that installed quality systems. Unfortunately, with the general public’s headlong plunge into the use of renewables, a few companies selling inferior products and doing inferior work joined the fray. Some brought products to the market without proper testing. Others just wanted to make a quick buck and didn’t care if they were taking advantage of well-intentioned consumers. Although most renewable-energy systems were of good quality, the minority that weren’t gave solar a bad name.
The young solar industry was experiencing the typical growing pains that come with most emerging technologies and took steps to correct the problems. The federal government, as well as many state governments, also stepped in to ensure higher quality.
This move toward renewable energy did not sit well with those who profited from selling fossil fuels. After the most expensive presidential campaign ever, financed in part by oil interests, Ronald Reagan became president of the United States. His presidency heralded a return to fossil fuels. One of his first acts as president was to remove the solar water heater that President Carter had installed on the White House. Between 1981 and 1986, Reagan effectively gutted the US solar industry. He negotiated a repeal of the tax credit legislation for renewables that was in effect. He reduced funding for renewable energy by 90 percent. He also spearheaded a massive campaign to discredit renewable energy. The result was a 91 percent drop in the sales of solar hot water collectors between 1984 and 1986. The solar market in North America from the 1980s through the late 1990s was primarily supported by customers who wanted to invest in renewable energy for environmental reasons. For an in-depth analysis of this subject, I invite you to read Who Owns the Sun? by Daniel Berman and John O’Connor. Their thorough and thought-provoking book will change the way you look at energy and politics forever.
While North America was abandoning its use of renewable energy, virtually all other developed nations in the world continued to embrace renewables and energy efficiency. As a result of this continued effort, our European and Asian trading partners reduced their energy consumption in relation to gross national product by as much as one half that of North Americans. And while maintaining a similar lifestyle, they also reduced the energy need to half that of the United States. Some countries, such as Israel, require that solar water heaters be installed on all new dwellings and businesses. Developing nations are also embracing renewable energy technologies over traditional fossil-fuel energy sources. Although their track record is not perfect, their attitude toward renewable energy is significantly better than that of North Americans.
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Figure 1.1: US energy consumption, 2008
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In Figure 1.1, you can see the breakdown of the total energy consumption for the US in 2008. Renewable energy accounted for only seven percent! Solar, both thermal and electric, made up only one percent of the renewable energy share — only 0.07 percent of the total.
Now that we’ve covered history and the present, we need to look at our future. If what happened in the past carries on through tomorrow, we are headed down a dark and dirty path. One percent of only seven percent is not good enough and needs to change now. Let’s do all we can to make our children’s future brighter.
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2
CONSERVATION AND THE ECONOMICS OF SOLAR WATER HEATING
WHATEVER BROUGHT YOU to this point, whether it was the realization that we are trashing our environment or the simple need to lower your living expenses, now you are here and you want to do something. But what to do first? The answer is simple: start by conserving the energy you use to heat water. Three general principles that are easy to follow will also save you money: reduce losses, increase efficiency and reduce consumption.
To start, examine your heating system from top to bottom and look for places where heat might leak out. Heat losses in the system end up wasting the energy you just used to heat your water. Many losses can be reduced with just a bit of cheap insulation. For instance, insulate all your hot pipes. If you are working on a new construction, insulating the hot pipes is easy. Even if you don’t have access to all your pipes, insulating the ones you can get at will make a noticeable difference. You should also insulate your water heater. A tank type water heater heats a whole batch of water. As this water sits there waiting for use, it slowly cools down. The more you insulate it, the better it will retain its heat. Heat losses can also come from leaks. A faucet that leaks 30 drops of water a minute will waste almost 100 gallons a month. Fix leaky faucets promptly.
Next, try to increase the efficiency of everything in your home that uses hot water, for instance, the washing machine and the dishwasher. Upgrading these appliances to more energy-efficient models will significantly reduce the amount of energy consumed. A frontloading washing machine uses half the hot water of a standard top-loading model. This results in saving 10 to 20 gallons of hot water in each load you do. You can save thousands of gallons of hot water a year.
Finally, you can conserve energy by simply using less. Former US Vice President Dick Cheney is famously quoted as saying that the “American way of life is non-negotiable.” We couldn’t disagree more. Simple behavior modifications can dramatically reduce the amount of energy we consume without a significant change in daily habits. For instance, when washing dishes in the sink by hand, don’t let the water run while rinsing. Fill one sink with wash water and the other with rinse water. Soak pots and pans instead of letting the water run while you scrape them clean, and if you are using a dishwasher, wash only full loads. Use cold water with the garbage disposal. Cold water solidifies grease, allowing the disposal to get rid of it more effectively. You can take short showers instead of baths. You should first install a low-flow shower head. Most standard showerheads use three to four gallons per minute. Even if you take a relatively brief five-minute shower, you can consume 20 gallons of hot water. Low-flow showerheads will use half of that. A family of four can save well over 1,000 gallons a month. If you are particularly attached to your showerhead, you can install a flow restrictor that will reduce the number of gallons per minute that it uses. For only a couple of dollars, you can reduce your load substantially.
Reducing losses, increasing efficiency and reducing consumption: these are the first steps. More important than quick fixes, though, is the notion of conscious consumption. We have forgotten the financial and environmental costs of hot water. If everyone recognized that whenever we turn on the hot water faucet we are using energy produced by nonrenewable sources, this would reduce energy consumption more than any other measure.
People often say to us, “I have done a lot of energy conservation and now I am ready to invest in a renewable energy system. What should I do next?”
Today, homeowners and business people can choose from a wide range of renewable energy technologies. Popular options include photovoltaic (solar electric) systems, wind electric systems and solar water heaters. In almost every case, a solar water heating system is the best place to start. It provides a higher return on your investment than most other types of renewable energy systems. A solar water heater works 12 months a year, providing hot water to your home or business with little or no additional cost, thus offsetting your previous bill for heating water with conventional energy sources. Depending on your particular situation, the savings in conventional fuel can pay for the cost of the solar water heating system in as little as three years. Most often the payback is five to ten years — still a great investment, even without taking into account the ecological benefits of not burning all that fossil fuel.
In fact, since you’ve alr...

Table of contents

  1. Praise
  2. Title Page
  3. BOOKS FOR WISER LIVING RECOMMENDED BY MOTHER EARTH NEWS
  4. Acknowledgements
  5. Introduction
  6. 1 - HISTORY
  7. 2 - CONSERVATION AND THE ECONOMICS OF SOLAR WATER HEATING
  8. 3 - TYPES OF SOLAR COLLECTORS
  9. 4 - OTHER SYSTEM COMPONENTS
  10. 5 - SOLAR WATER HEATING SYSTEMS
  11. 6 - SOLAR SPACE HEATING SYSTEMS
  12. 7 - CHOOSING THE RIGHT SYSTEM FOR YOUR NEEDS
  13. 8 - SYSTEM INSTALLATION
  14. 9 - SYSTEM OPERATION AND MAINTENANCE
  15. Appendix A - WIRE SIZING CHART
  16. Appendix B - METRIC CONVERSIONS
  17. Appendix C
  18. GLOSSARY
  19. INDEX
  20. ABOUT THE AUTHORS
  21. Copyright Page