Natural Gas Essay

Natural Gas Essay.

Qatar is known to have the third largest reserve in the world for natural gas. It is a colorless, shapeless, odorless gas in its natural form. Main property of this gas that made it so prized is its combustibility. When burned, natural gas emits a great deal of energy (NaturalGas. org, 2004). But not like fossil fuels, natural gas is a clean burning gas with lower level of potentially harmful byproducts is emitted into the air as resultant to the combustion process.

Natural gas is usually composed of a mixture of combustible hydrocarbon gases.

While natural gas is formed primarily of methane, it can also include ethane, propane, butane and pentane. The composition of natural gas can vary widely but in its purest form it is mainly composed of methane. Usually found under the earth, this gas is usually associated with oil deposits. Natural gas is another form of fossil fuel, like coal and oil, and is essentially the remains of plants and animals.

Use of natural gas as an energy source comprises 24% of the total energy consumption in the US for the year 2000.

Natural gas, with its varied usage and has many different applications for industrial, commercial and residential sectors, is vital component of the nation’s energy supply. PHOTOVOLTAICS Photovoltaic literally means light electricity, which was derived from the Greek words photo and volt. Photovoltaic materials and devices basically generate electricity by converting light or solar energy into electricity that can be utilized by devices requiring electrical power. It was discovered by a French physicist Edmond Becquerel on1839 while conducting an experiment involving electrolytic cell connected by two metals as electrodes.

Since then harnessing of solar electricity has been developed and used (Solar_Energy_and_Technology_Program, 2005). Since the discovery of photoconductivity, solar energy has been harnessed to generate electricity. On 1873, Wilby Smith identified Selenium to demonstrate photoconductivity. Photovoltaic property was also observed Adams and Day to be exhibited by Selenium while in its solid form. The first solar cell was created by Charles Fritts on 1883, which was made from Selenium wafers (Corrosion_Doctors, 2007).

PV was originally developed to provide power to devices on places that would require a renewable source of energy like in outer space. With the development of PV devices or solar devices, PV cells have been used in providing power to spacecrafts and devices. The first reported usage of PV cells was during 1959 for the Vanguard 1 satellite using silicon wafers in the solar device. This satellite lasted for 8 years in operation (Corrosion_Doctors, 2007). Since Vanguard 1 other spacecrafts and satellite were reported to utilize also PV technology in providing power to manned and unmanned crafts and satellites.

PV generation is gaining increased importance as renewable source due to its advantages like absence of fuel cost, no noise or wear due to absence of moving parts and little maintenance. The world market for photovoltaic exceeded 200 MW in 1999 could rise to 650 MW in 2005 and 1800 MW in 2010 – provided that installed costs for grid-connected PV drop to less than US $4/ Wp in 2005 and $3 in 2010. The world grid-connected market grew to 110 MW in 2000, 400 MW in 2005 and will grow to 700 MW in 2010 provided the installed costs will decrease to $3/W by 2010.

The following tables and graphs show a general idea of how the PV world market is growing and how the prices of PV modules/Wp is dropping since the year 1990 up until now and in the upcoming future. PV Cells PV cells or solar cells, composed of semiconductors that are made from crystalline solids, which permits electrical conduction when connected to two metals, are devices that converts solar or radiant energy into electrical energy. This thin wafer of semiconductor is chemically treated to produce negative charge on one side and positive charge on the other side.

A p-n junction separates and connects the two oppositely charged sides. The process of converting sunlight into electricity is explained in three processes 1. Sunlight is absorbed by the thin semiconductor wafer. 2. Positive and negative charges are generated and are separated in the different parts of the cell. The movement of these particles generates voltage within the cell. 3. And, the electrical current generated by the separation of the charges is transferred to the intended device via the electrical terminals connected to the cell.

When sunlight is absorbed by the solar cell, electron hole pairs are generated, and if their recombination is prevented they can reach the junction where they are separated. The electrons are moved into the front side or negative side of the cell. Commercial solar cells usually designate the negative side in the front part. The back or other side of the cells is designated as the positive side. When these two are connected electrical current flows between through wires connected to the electrical device. The current that flows is usually proportional on the intensity of the sunlight that the solar cell captures (Elwell & Komp, 2007).

The back contact or positive side is usually made of continuous layer of metal but the front contact, on the other hand is usually made into thin fingers. The front contacts are evenly spaced to allow the as much sunlight to reach the positive side of the cell. The cell is covered with an anti reflection coating to maximize the absorption of sunlight. A thin protective coating covers the cell to allow cleaning and maintenance (Elwell & Komp, 2007). An example of a single solar cell structure is shown in figure 1. PV cells are manufactured in many shapes and sizes. Some are even smaller than a postage stamp.

While there are individual cells that are many inches across. Interconnected PV cells form a PV module. Modules are interconnected to form a PV array. The module is designed to contain a number of Silicon cells interconnected as a series of thin layers. This is purposely intended to protect the solar cells from the ambient and as well as generate a higher voltage compared to a single cell, which delivers less than 1 volt. Arrays varies in the size that is needed dependent upon the amount of sunlight that the location is receiving and the needed power generated by the array depending the intended usage.

The array is not just composed of the PV modules, which comprises the majority of the PV system, it also includes the electrical connection, mounting hardware, power-conditioning equipment and batteries that store the generated electricity intended for use during the times when the sun is not available or shining (Solar_Energy_and_Technology_Program, 2005). Crystalline silicon solar cells are used in more than half of all solar electric devices. Like most semiconductor devices, they include a positive layer (on the bottom) and a negative layer (on the top) that create an electrical field inside the cell.

When a photon of light strikes a semiconductor, it releases electrons (see animation). The free electrons flow through the solar cell’s bottom layer to a connecting wire as direct current (DC) electricity. Some solar cells are made from polycrystalline silicon, which consists of several small silicon crystals. Polycrystalline silicon solar cells are cheaper to produce but somewhat less efficient than single-crystal silicon (“Solar Electricity”, 2004). A simple silicon solar cell can power a watch or calculator. However, it produces only a tiny amount of electricity.

Connected together, solar cells form modules that can generate substantial amounts of power. Modules are the building blocks of solar electric systems, which can produce enough power for a house, a rural medical clinic, or an entire village. Large arrays of solar electric modules can power satellites or provide electricity for utilities. Solar Electric System Components (“Solar Electricity”, 2004). PV cells can be made from different semiconductor materials but the most commonly used in manufacturing is crystalline silicon.

Crystalline silicon has gained popularity since it was the first material used in the earliest successful PV devices. Silicon has 14 electrons and its orbital arrangements allows up to four electrons to be given, shared or accepted. These outermost electrons, known as valence electron, play a vital part in photoelectric effect of solar cells. Solar cell technology benefited greatly from the high standard of silicon technology developed originally for transistors and later for integrated circuits. This applied also to the quality and availability of single crystal silicon of high perfection.

In the first years, only Czochralski (Cz) grown single crystals were used for solar cells. This material still plays an important role. As the cost of silicon is a significant proportion of the cost of a solar cell, great efforts have been made to reduce these costs. One technology, which dates back to the 1970s, is block casting which avoids the costly puling process. Silicon is melted and poured into a square SiO/SiN coated graphite crucible. Controlled cooling produces a polycrystalline silicon block with a large crystal grain structure.

Natural Gas Essay

Natural Resources Essay

Natural Resources Essay.

Natural resources are useful materials or substances that exist in the environment like land, water, sun, trees, oil, minerals, etc. Natural resources are generally classified as renewable resources and non-renewable resources. Resource depletion means exhaustion of natural resources in a certain region. When the rate of consumption of these resources exceeds the rate at which they are restored, depletion of resources occurs. The utilization of natural resources has increased considerably due to the rapid growth in population. Improvements and advancements in science and technology have resulted in overutilization of natural resources.

Some of the major causes of depletion of natural resources are as follows: Overutilization or exploitation of resources. Partial allocation of resources. Population growth. Advancements in technology. Deforestation. Soil erosion. Mining. Depletion of non-renewable resources (water, minerals, oil, and gas) has a serious impact on world economy and can create an imbalance between different nations. Overutilization of resources can cause disruption and destruction of the ecosystem. Overexploitation of water has caused drying of water bodies like lakes and streams.

Therefore, we must utilize these resources carefully to maintain a balance between nature and mankind and also for the sustenance of life on earth. –

Overutilization of natural resources has caused serious imbalance in nature. Various environmental issues like Greenhouse gases, global warming, and pollution have cropped up due to overuse of natural resources. According to the environmentalists, some of the non-renewable resources like oil, petroleum and gas will be completely extinct in the near future if we do not carefully use and conserve them. Conservation of the natural resources is not an easy task especially due to the fact that we are heavily dependent on these resources for our daily needs. However, we can adopt the following simple ways and strategies to save our environment: We should use paper products that are recycled and also practice recycling of paper. Unnecessary use of paper should also be prevented.

Read more: Essay on Conservation of Resources

We should plant a tree and take part in plantation programs organized by the Government. Reforestation should be encouraged and practiced. We can save water by fixing any nozzle or tap that is broken or cracked. When bathing it is better to use a bucket or tub than the shower. We should employ proper waste disposal techniques like composting. Dumping of wastes in lakes, rivers and the seas should be stopped. We can harvest rain water by installing rain water harvesting systems in homes and offices. The rain water is useful for gardening and cleaning purposes. We should try to restrict the use of vehicles as much as possible. If possible we can choose to walk or use a cycle. In this way we can save oil and gas. A hybrid car is always a better option because it runs on both electricity, and small quantity of gas. We can save energy by switching off all the electrical appliances that are not in use and also by using those products that consume lesser electricity. We can save electricity and natural gas by using solar energy. Many appliances like solar cookers, solar heaters use solar energy instead of electricity. Photovoltaic can be used to generate electricity from solar energy.

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Natural Resources Essay