Here comes the sun, make the most of the renewable energy. This is a clean and environmentally sound means of gathering solar energy. Solar energy has been used since prehistoric times, but in a most primitive manner. In the coming years it is expected that millions of households in the world will be using solar energy as the trends.

Solar energy collected through Do It Yourself solar panels could be used to meet the electricity requirements. Through Solar Photovoltaic (SPV) cells, solar radiation gets converted into DC electricity directly. This electricity could be either used as it is or can be stored in the battery. This stored electrical energy then can be used at night.

SPV can be used for a number of applications such as domestic lighting, street lighting, village electrification, water pumping, desalination of salty water, powering of remote telecommunication repeater stations and railway signals.

Solar energy or green electricity thus created could be used for Cooking/Heating, Drying/Timber seasoning, Distillation, Electricity/Power generation, Cooling, Refrigeration, Cold storage.

Many small time farmers and rural people could benefit by building solar panels at home. This would help them in saving huge cost invested in purchasing readymade Solar Energy Panel. In agrarian country Solar Energy Panels come as a boon. Constructing Solar Energy Panel does not call for expert knowledge.

Step-by-Step guides available in the market would provide end to end subject knowledge, about raw materials needed to build a solar energy panel and instruction on construction. They also suggest were the raw materials could be procured.



By: Energy 4 Earth

Home Made Energy – Learn about wind and solar energy www.renewableenergy4earth.com

Solar energy is the energy produced by the sun. During the fusion process that the sun undergoes during its lifetime, it emits radiation. The fusion process produces many different wavelengths of radiation and sub-atomic particles.

Collecting and converting usable energy from solar radiation can be accomplished by using many different forms of technology and includes various direct and indirect methods of harnessing the solar energy.

There are basically two ways to use this solar radiation, by collecting the heat from the light, and photovoltaic conversion of the light. There are many different methods of collecting the heat and converting it to electricity, and many ways of converting the light as well.

One of the simplest ways that people use solar heat energy is by using greenhouses. A greenhouse is built so that it can best collect the sunlight and heat that it receives from the sun. Using special glass or plastics, the greenhouse and everything within it retains the heat energy from the sun. This heat is trapped inside the greenhouse by the roof and walls allowing plants to grow in an otherwise too cold climate.

By combining various technologies and the use of alternative power sources such as electricity from the grid, a controlled growing climate can be maintained to optimize specialty and agricultural crop growth. A large greenhouse could make use of a solar updraft tower to generate most or all of the additional electricity it may require to keep the climate controlled.

A solar updraft tower is a simple use of the excess heat generated by light heat that the greenhouse receives. Hot air rises and is channeled from along the ceilings of the greenhouse and directed into a tower. The hot air rises and the turbine blades are pushed by the hot air rushing past them to generate electricity. Storing any excess power in batteries for the night when there is no sun can also keep the use of grid power to a minimum.

Expanding on the collection of heat from the sun, there are power plants in the hot sunny desert areas that collect the heat from the sun and convert the heat to electricity.

Some of these solar energy plants make use of curved, highly reflective and focused surfaces to optimize the collection of heat from the sunlight. They focus the light onto a central tube that is filled with synthetic oil that gets very hot. This hot oil is then piped into a boiler filled with water that is flashed into steam from the heat of the oil. The steam produced is then used to turn turbines that produce electricity. This is a highly effective way to convert solar energy into usable power.

Another way to collect the energy from the sun is through direct photovoltaic conversion. Here the light is converted into electricity by using special materials called photodiodes that are made into cells. The photodiodes emit electrons when the photons from the sunlight hits them. By using arrays of the special cells and electrically connecting them together, enough power is produced by the transduction process to make it a worthwhile alternative energy.

As more and more people demand the use of free solar energy, governments as well as businesses are subsidizing researchers, and these combined efforts are meeting this demand by coming up with materials that can produce more and more energy from a given amount of sunlight. Solar electricity produced by arrays of solar panels is now almost as cost effective as using petroleum, coal, and nuclear generated power.

The most common method of using solar energy is to store them in photovoltaic cells. This method was first used in U.S. space satellites in 1950s. The cells are made from silicon. When sunlight enters the cells, it causes the electrons to move about. The electrons then move towards the front side of the solar panels. This causes an imbalance of the electrons between the front and back side of the panels. On joining the two surfaces, a conductor is formed, just like a wire, and current begins to flow. The individual solar cells are arranged together in a PV module and the modules are grouped together to form an array. This current is used to charge cells and this energy is used to light lamps, tube lights and also to drive cars now. The current can also be used to run appliances.

Another method of using solar energy is to direct the solar rays to a convergence point using a curved reflector and then make a current flowing system like a photo cell and store energy. This method is now used in India and U.S.

Our planet receives enough raw energy in the form of sunlight in sixty minutes to illuminate all of the worlds lights for a full year. Unfortunately, a very small part of it can be harnessed so most of the population still gets most of its energy from power plants that burn fossil fuels. Fortunately for our environment, we have recently seen an increasing trend in the demand for solar energy. This is partly due to the fact that solar panels are becoming cheaper as technology advances.

At the equator, the Sun provides approximately 1000 watts of energy per square meter on the earths surface. This means that 1 square meter of each panel can generate approximately 100 GW of raw power per year, which is enough to illuminate more than 50,000 houses. The entire area that would need to be covered by solar panels to power the entire world for a year would be the equivalent to one percent of the entire space of the Sahara Desert. The amount of power solar panels can generate on a given day depends on a few variables like smog, cloudy days, low temperatures and humidity.

Solar panel farms are a lot like other normal power plants with the only big difference being that most power plants get their energy from fossil fuels. And when conventional plants burn fossil fuels, they generate the by products which are contributing to global warming. Solar panel farms or solar heat plants (or CSP plants) absorb the rays of the sun to generate electrical energy.

This process of energy conversion in solar heat plants is rather simple. The panels absorb the rays of the sun, which then shines on the power receiver. In this receiver, the energy is converted into steam from the suns rays. The steam is taken to tanks where it will be used to spin turbines and generate electricity. The process is clean because it requires no fossil fuels to be burned. It is safe for the environment and doesn’t contribute to global warming like conventional power plants.

If more solar panel farms are implemented, the demand for oil will be reduced sharply. Today, there are many households that use solar panels for energy and more people are adding panels every day. When this demand for solar energy and other alternatives goes up, fewer people will use gas and fossil fuels, and the prices for these will surely drop as well.

Even though the initial investment into your solar panel system is a bit expensive, the panels will undoubtedly pay for themselves in the long run. Not only do you save money and perhaps even make some with your panels, you help the environment by reducing greenhouse gases and emissions. These systems are so durable they have been known to last years. PV cells are supposed to stay good anywhere from twenty-five to forty years. Most suppliers of solar panels have a standard twenty-five year warranty.

Finally, solar panels take minimal maintenance and they can be placed basically anywhere that gets a good amount of sunlight all year. Scientists worldover say that the future lies with solar energy. Using solar energy for home use like heating, cooking, driving car and for all other uses like charging your mobile phone, street lights and heating the swimming pool and powering your computer will become a way of life. Just as the saying goes that sun never stops shining in California, a solar energy home will never lack the power required to run the house.

China is another country which is fast using this solar technology for its future growth. Japan already is moving in the direction of saving its excess power and the government there is helping device methods to save money on fuel. The future of solar energy homes is spreading rapidly in the east. The Ministry of Non-Conventional Energy is formulating a program to introduce solar energy to more than a million homes in the next few years.

India has long days and plenty of sunshine, especially in the Thar Desert region of Rajastan. With abundant solar energy available, this zone is attracting attention from the Indian government for its research purposes. Solar energy is being used in India for heating water for both industrial and domestic purposes.

Human beings may not be trustworthy but the sun is always kind and generous to mankind in general. Let’s hope the future of solar energy homes all over the world is not very far away.



By: Illusions4real Energy Saving Solutions

!llusions4real is a Energy Saving Solutions provider offering various solutions by utilizing the energy of the Sun or providing alternate means to reduce your energy consumption levels and save the environment. At I4R we aim to build a green future for our global community. We work to develop and maintain a cleaner, energy-efficient world. We are a Jaipur based company with a growing network of distributors across India. !llusions4real aims at delivering its products and services to the consumer in a stipulated time frame, keeping in mind that the consumes is a green citizen and his initiative to go in for a energy saving solution should not be neglected.

We strongly believe in and recommend the use of non-conventional sources of energy and encourage even a small step that goes into energy saving. In today’s high-energy consuming world, we offer world-class energy saving solutions, striving to meet the increasing need for alternative energy sources and take every step necessary to promote energy saving products.

We assure to bring you the best lighting and water heating solutions to suit your premise and budget.

Just like solar energy, wind energy is another environment-friendly and economical energy source. With almost 40% of wind energy sources of Europe in the United Kingdom, there is immense potential to use wind energy as a source of energy.

Generating power through wind is not only efficient but also renewable like solar energy. The only downside is that a tall, moderately sized generator can be a sore eye and spoil the visual landscape, leading to murmurs of disapproval among neighbours. Think about this before you go ahead and think about how to generate wind energy in your area. However, if you do not live in a very populated area and your neighbors consent to your wind energy project, there could be nothing more beneficial to harness the potential of such a natural and renewable resource called wind.

Getting Help in the Start

If you are wondering how to generate wind energy, the British Wind Energy Association or BWEA is a good professional source of services and information for initiating projects related to wind energy. This professional body continuously organizes and manages several initiatives to propagate the use of wind as a source of energy across the country and its residences. It has information on local suppliers of wind systems and information on grants and permissions.

The ‘Energy Saving Trust’ which is backed by the government also provides provide advice on several issues for both companies and individuals and companies desiring to install wind generators on a small scale.

Other Practicalities like Cost and Savings

The cost of wind generators should fall in the range of 3000 pounds -15000 pounds for each kilowatt. This is as competitive as solar and actually slightly cheap when compared to the high output it generates. It is also expected to generate higher output in a year compared to its output in the previous year. Your wind generator should break even in about five years and the way the prices of normal energy sources are increasing, the returns of a wind generator will surely increase over a period of time.

How to Position Your Turbine

It is best to place the turbine high if you want to get the most of the wind strength without any obstructions. Also make sure to measure the wind strength in your locality so that you can place the turbine facing the direction where the wind is prevailing. To measure the wind strength, you can either buy or hire an anemometer. You can also get the person installing your wind generator to do that.

Battery or Grid?

A battery can be connected to wind generators of small scale to provide electricity to your house. The other option is to connect the wind generator to the National Grid. The decision to do the former or the latter depends totally on the circumstance. As such there is no major difference except that it will affect the direction of your energy. If you happen to stay in an area that is remote with no access to the National Grid, energy should then be directed to the battery which in turn will be connected to your residence’s mains. If you can easily access the National Grid, get the generator connected to the grid. By connecting to the grid not only will you be benefited from power savings by not using the supply of electricity from the grid, you will also be able to sell surplus electricity to the grid.

Read the whole ebook - Home Made Energy



By: Energy 4 Earth

Home Made Energy – Learn about wind and solar energy www.renewableenergy4earth.com

Conventional Design

Previously, the standard Hydropro design for SWRO with energy recovery incorporated a single multistage centrifugal pump (or positive displacement) with a Hydraulic Turbo Booster. This design is fairly simple and generally does not require a significant increase in system controls or instrumentation and is for the most part a sound, and energy efficient SWRO design.

The hydraulic turbo booster converts the hydraulic energy of the concentrate stream to mechanical energy and then applies this mechanical energy to the full flow of the feed stream in the form of a considerable pressure boost. In a single stage SWRO system, the energy benefit associated with this type of energy recovery device is realized solely in the form of lower pressure (and thus lower horsepower) requirements for the high pressure feed pump. Because the equations used to predict the pressure boost produced by a HTB are usually specific to the manufacturer and dependent upon the system parameters, they will not be explicitly discussed here. In this case, a reasonable assumption would be a 300 psi (693 feet H2O) pressure boost from the HTB operating in a system as described in Example 1 below. The following example is used to demonstrate the reduction in high pressure feed pump horsepower requirements:

This HTB energy recovery device provides a substantial reduction in specific energy consumption, which, depending on the duty cycle and cost of power could pay for itself in a relatively short amount of time.

New Technology

The concept of a work exchanger energy recovery device was certainly not new, and several variations of these devices have come and gone. However, at the time of this proposal, there seemed to be a new approach to the design of these positive displacement devices that eliminated many of the problems associated with previous versions. The PE from Energy Recovery, Inc. (ERI) is an example of a novel work exchanger device that was in a position to profoundly affect the design of SWRO and the energy recovery industry.

The main idea of the Pressure Exchanger is its ability to directly transfer most of the hydraulic energy in the concentrate stream to an equal amount of feed water. The result is a side feed stream equal in flow to the concentrate stream (minus bearing leakage) that is boosted to near membrane feed pressure by the Pressure Exchanger. A small high pressure booster pump is then required to boost the high pressure feed exiting the PE so that it equals the discharge pressure of the high pressure feed pump and the two feed streams can be combined. This pressure boost accounts for pressure losses associated with inefficiencies of the pressure exchanger, losses across the membranes, and piping and fitting losses throughout the system. By significantly reducing the size of the high pressure feed pump to approximate the flow of permeate, the horsepower of the high pressure pump can be reduced by approximately two thirds of the total pumping power required. This substantial reduction in horsepower is, for the most part, specific to the high pressure, low recovery nature of the SWRO system. To illustrate the effect of this reduction in pumping power required, the following example is used:

Although there are other energy considerations besides just pumping power when comparing a system with no energy recovery and a system with a PE, this simple analysis shows a significant reduction in energy consumption when using a Pressure Exchanger.



By: Energy Recovery Inc.

Energy Recovery Inc. is a Clean technology company that supplies the PX Pressure Exchanger for seawater desalination.