When our daily energy requirements are met by ‘Green Energy’, then we are using resources such as wind, tides or geothermal heat. They are thought to be ‘Green’ due to the fact that they are easily restored and natural. When considering elements such as Wind Power and Windmills, in many cases we are looking back at the history of energy production. This idea is preserved by the use of technology, eco-efficient options and planet friendly alternatives.
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 Energy Systems: This technology is based around two core types of system. Firstly, there are elements that absorb energy from the sun and create hot water – known as Solar Water Heating Collectors. Added to this is the generation of electricity from solar radiation – known as Photovoltaism, or more commonly Solar Electrical panels. To get the best results these panels need to be south facing at an angle of around 30 degrees from horizontal, and away from blockages.
For the UK, this is often considered the most popular form of ‘Green Energy’. Solar Water heating systems can meet the need for more than half of all hot water needs in the domestic market. Getting a professional fitting will cost around 2-5k, however, doing the job yourself could make it as low as 500 to 1500 pounds in total.
Biomass Energy Systems – Including all natural energy forms derived from plant and animal products – such as wood, straw, poultry litter and ‘energy crops’. It is extremely useful – in that it can produce a range of power sources, including heat and electricity. Indeed, within the European Markets, the UK has some of the leading levels of Biomass material at hand. Considering all this, and the relative lack of C02 produced, makes the whole process highly green overall. Because the system often involves one tree being planted as another is felled, many wood crops are deemed to be sustainable sources.
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). Of equal importance is the production of perennial grasses – because of their yield of dry matter. Other less known materials within this field are Agricultural and Municipal Waste. To begin with, Agricultural Waste is often produced as part of the agricultural process overall. Municipal Waste such as food or wood can also be utilised as a biomass product.
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.
Systems Based On Wind Energy: When you consider the milling of grain and pumping of water, it is easy to see how long wind energy has been with us. Whether to your home or to a local grid, when the energy has been generated it must be delivered to a point of usage – and cannot be stored. To be fair, the UK has the highest level of wind generation within Europe. It is interesting to note that whilst we can produce 10 percent of our entire power requirement from wind power, at present we only produce 1 percent. Rather than electricity production running at 2-10 p per kWh, it could be run at 2p per kWh. Therefore, recovery of cost takes approximately 6-9 months overall.
Last of all there is Hydropower – an area of especial importance to the UK. Having said that, the art of using energy from moving water (just like wind power) is very traditional. Within the UK, this form of energy production is responsible for somewhere in the region of 2 percent of all electrical needs.
Using a turbine, a Hydropower system can transform the energy of water into other forms. No water reservoirs are required – as the turbines either run through a water drop-off system or the natural power of the river. It is by using the eroded national distribution systems, that allows for outdated sluices and dams to be used by techniques known as ‘Micro-Hydro’. Having said that, this process could still generate 200mW of the National Capacity. 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. With EEC and UK recognition of renewable energy getting ever-higher on the political agenda, the grants and financial aid for introduction of these systems can only increase. It is by gaining the right certificates that will provide opportunities and job security for the long term. Look for combined electrical and plumbing training, with a key emphasis on practical green systems and installation.
(C) 2009 Scott Edwards. Pop to Renewable Energy Certification or electricianscourse.co.uk/GreenEngineerCertification.html.