A Background In Solar Training
It is by using natural resources such as tidal or wind energy – collectively known as ‘Green Energy’ – that we could meet our daily energy needs. They are considered ‘Green’ because they are environmentally friendly. The older energy skill sets have had value for years, especially when we think of wind power and windmills. Regardless of this, we are mainly talking about using modern techniques to offer planet friendly and eco-efficient solutions.
The range of renewable energy technologies utilised within the home environment includes both Solar Thermal, and Solar Water Heating Collectors. For electricity created through roof-installed panels, you would need Photovoltaic Panels or PV’s. Then there are Stoves that burn Bio-Pellets – which make up the subject commonly known as Biomass Energy. What shouldn’t be forgotten is the heat stored in the ground from the Sun – often simply referred to as Ground Source Heat Pumps. At the end there are two of the most mature forms of energy production in the UK – albeit renamed now to Wind Turbines and Hydropower.
Thermal Solar Energy – This technology is based around two core types of system. First, we have Solar Water Heating Collectors, which absorb energy from the Sun and transfer this into hot water. Then we have the work of the Photovoltaic Heat Collectors, often called Solar Electrical Panels – which transform solar radiation into electricity. Typically, these panels are found on roofs – and need to be away from any light blocks such as trees, chimneys and other buildings.
Within Solar Energy overall, Solar Water Power is most commonly used in the UK. Solar Water heating systems are extremely important – and can provide over half of the hot water needs for houses within the UK. The typical cost for installation ranges from 500-1500 pounds for a DIY system, all the way through to 2-5k for a professional fit.
Biomass Energy Technology: Historically, this has come from plants and animals, though nowadays this also includes new genetcially engineered ‘energy crops’. Due to its adaptability, it can produce a range of energy forms – from heat and electricity through to combinations of both. It is interesting to note that the UK has some of the largest quantities of Biomass material to generate electricity within Europe. Considering all this, and the relative lack of C02 produced, makes the whole process highly green overall. To that end, many wood crops come from sustainable sources (as one tree is felled, another is planted in its place; thus the new tree absorbs the CO2 produced during the heating process.)
Within this field is the need for the use of ‘Energy Crops’, such as fast growing trees, e.g. Willow and Poplar or other entities grown on a Short Rotation Coppice (SRC). Also producing high yields of dry matter are the perennial grasses. Other less known materials within this field are Agricultural and Municipal Waste. One natural offshoot of agricultural work is Agricultural Waste. Because it comes from food or wood, Municipal Waste is also considered a useful biomass product.
Geo-Thermal Energy Based Systems – Basically this is the warming of the Earth from the Sun – and is often used in the manufacture of warm water and electricity. By using the ground source temperature of approximately 12 degrees, we can either heat or cool buildings within the UK. Heat pumps are recognised as a very good form of power generation, generally giving back four units of energy for every one used. The energy generated by a heat source pump can in fact be considered 100 percent renewable, if the power to operate the pump comes from solar electrical panels or a wind turbine.
Wind Energy Systems: Wind Energy as a sustainable source of energy has been going on for millennia. However, in more recent times there’s been the option to recover the energy for its own sake – and deliver this either to a home unit or to the local power grid. The ability to utilise wind generation is considered to be greatest in the UK. Potentially, we can produce 10 percent of our annual energy needs through wind power, although at present within the UK we still only use 1 percent. Electricity can be produced from as little as 2p per kWh, but generally comes in somewhere between 2-10p per kWh. Recovery of the cost involved is somewhere between 6-9 months.
Then there is Hydropower – something within Europe that the UK excels in. Although new in its approach, the act of harnessing energy from water has been going on for a long time. That said, this type of energy can generate around 2 percent of the total electrical demand for the UK.
By using a turbine, a Hydropower system can transfer the kinetic energy of moving water into another form. Turbines use either a water drop (e.g. through a dam) or by a natural ‘run of the river’ – thereby having no water storage reservoir. ‘Micro-Hydro’ however utilises old outdated sluices and dams. Whilst considered a smaller form of electrical output, this system is thought to be able to give some 200mW of capacity to the UK. When considering the installation cost of items such as this, we’re looking at somewhere between 200 pounds and 3k per kW of energy created.
It can be seen that the route to ‘Green Energy’ is growing considerably, especially in light of the need for increasing energy outputs throughout the Western World. The UK domestic market appears to be one of the core beneficiaries of this technology.
It is the drive for installations in the domestic sector that looks to favour jobs such as plumbers and electricians. It is the political view of this type of energy generation that results in grants and financial aid becoming ever-more prevalent. It is important to gain the correct qualifications to install these items. You could consider either plumbing or electrical training programs that highlight green installation.
Copyright 2009 Scott Edwards. Pop over to electricaltraininginfo.co.uk/SolarEnergyTraining.html or Solar Energy Courses.
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