In a nutshell, ‘Green Energy’ utilises natural resources such as sunlight, wind, tides and geothermal heat to provide our daily energy requirement. They are considered ‘Green’ because they are environmentally friendly. It is easy to think that we may be travelling back in time when we think of items such as wind power and windmills. However, it is the result of eco-efficient and planet friendly options that this process is maintained.

It is the use of simple renewable energies such as Solar Thermal and Solar Water Heating Collectors, that suits the home environment. It is equipment such as Photovoltaic Panels (PV’s) that develop electricity through suitable roof-panels. Biomass Energy is the next phase, and this involves Fuel, Pellets, Stoves and Boilers burning Wood. Of course, then there is the heating from the Sun – often just called Ground Source Heat Pumps. When we think about Wind Power and Hydropower we have two of the more common forms of energy generation.

Thermal Solar Energy – Typically referred to as Solar Energy this is mainly made up of two types of Solar Panels – each using different methods to achieve similar results. To begin with, we have the concept of drawing energy from the Sun to heat water – known as Solar Water Heating Collectors. Secondly, Photovoltaic heat collectors – often simply referred to as Solar Electrical Panels – which transform the solar radiation into electricity. Obviously situated away from blockages such as chimneys etc., these Solar Panels need to be mounted on south facing roofs at an angle of 30 degrees from the horizontal.

Within Solar Energy overall, Solar Water Power is most commonly used in the UK. With the capacity to deliver 50 percent plus of a household’s hot water requirement annually, Solar Water heating systems are crucial to energy in the UK. Typically, to fit this type of equipment will cost between 500 and 1500 pounds for a DIY kit – all the way up to 2-5k for a full professional fitting.

Biomass Energy Based Systems: This is a general term for all forms of plant and animal material e.g. wood, straw, poultry litter and ‘energy crops’. It’s the ability of this power source to generate diverse forms of energy, such as heat and electricity, that makes this so adaptable. The ability to generate electricity is one of the UK’s main green strengths – as it has one of the larger Biomass legacies within Europe. Added to all this, is the lack of C02 produced as a by-product of the whole process. Having a tree planted in place of another (that is felled for energy production) helps overall.

‘Energy Crops’ trees such as Willow and Poplar play a major part in the process – under the banner of Short Rotation Coppice (SRC). Perennial grasses also produce a high yield of dry matter. Within this process also sits the lesser known Agricultural and Municipal Wastes. Agricultural Waste is commonly formed as a by-product of traditional agricultural work. Another biomass source is that of municipal waste – and this comes from recycled wood or food.

Geo-Thermal Energy Systems… This is primarily the heating of the Earth (mainly from the sun) and can be utilised in electricity and warm water production. Heating or cooling properties in the UK can be achieved using the ground source heat temperature of around 12 degrees centigrade. Whilst these heat pumps require energy to operate, their rate of return is excellent – being four units produced for every one unit used. Heat source pump energy can go one step further (by gaining a 100 percent return) if the energy to power them comes from items such as wind turbines or solar electrical panels.

Wind Energy: As an energy source, wind energy has to be one of the oldest forms of energy creation in history. That aside, the ability to generate energy and both transfer this into the home or the local grid has been a relatively new option. With regard to wind generation, it is the UK that has the highest production within Europe. For the fact remains that, within the UK, we have the ability to generate 10 percent of our requirement from Wind Production – as opposed to the current value of only 1 percent. Electricity can be produced from as little as 2p per kWh, but generally comes in somewhere between 2-10p per kWh. The financial recovery process takes around 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. In total, this could produce something like 2 percent of all electricity required in 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. Although a lesser known form of electricity output, this process could supply 200mW of UK demand. The expected cost of installing a system such as this would be between 200 pounds and 3k per kW of output.

‘Green Energy’ is growing – mainly due to the demands of the Western World. To be fair, the UK domestic market is actually leading the resurgence, with a variety of schemes.

Electricians and Plumbers in particular are expected to provide the main thrust of domestic installation expertise. With ‘Green Energy’ rising up the political agenda in Europe, a range of financial aids and grants are becoming available. This is a new industry – but getting the right certification can only improve job security and opportunities for the future. Electrical or plumbing training that incorporates green technology could be very useful for the future.

(C) 2009 Scott Edwards. Visit electricalcoursegb.co.uk/RenewableEnergyCertification.html or Green Engineer Certification.

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