A Feasibility Plan for an Alternative Energy Scheme – Term Paper Example

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The paper "A Feasibility Plan for an Alternative Energy Scheme" is a great example of a term paper on engineering and construction.   Great Britain, like any other developed country, has densely populated settlements areas. However, it may be difficult to visualize that the country has remote settlements. Nonetheless, remoteness is a comparative idea and one not necessarily derived from a state of destitute. A number of regions in the UK have settlements that range from a single house to residential regions with a population of over a thousand people. In most settlements areas, reliance on national-grid-based electricity is a common feature.

The literature review evaluates different energy solutions for selected remote settlements. The feasibility plan and report concentrate on remote settlements with no energy grid connection. The number of dwelling in the settlement is 11(the number is derived from a formula that sums the first two digits of a student ID (4773760)). Each dwelling accommodates a family unit of four and the dwelling design is based on high-energy conservation. The remote settlement has a flat terrain with ample water supply from an artisan well (six meters below terrain).

The area’ s weather as per Mid-UK, it has a mobile phone connection, and satellite televisions. The task is to incorporate novel ideas on energy usage, management, and conservation within this remote settlement. Renewable Energy Resources According to Giddings and Underwood (2007), meeting the sustainability principle for remote settlements necessitate the integration of numerous renewable energy resources with the accessible energies. The two authors listed solar, wind, biomass, and wave and tidal, hydro, and geothermal as alternative energy sources that can be used for conservation (Giddings and Underwood, 2007). Energy Solutions in Remote Settlements The Scottish and Southern Energy (2015) survey provided some energy-saving techniques for the Shetland Energy system.

The survey demonstrated that wind power is a fuel saver capable of reducing the cost of electricity and conserve energy (Scottish and Southern Energy, 2015). Wind energy can be used as an alternative energy source especially when effectively integrated with renewable generators. The study demonstrated that the integration process could make the remote Shetland power grid increase the commercial viability of wind projects (Scottish and Southern Energy, 2015).

However, the study also revealed that the fundamental rate to supply wind energy to the grid could not match the standards of the UK Feed Tariff. The survey demonstrated that wind energy is valuable especially in a direct reduction of fossil energy consumption annually. The realization is a recognizable and sensible discovery that presented wind energy as a potential solution for Shetland remote settlement. The authors discovered that the Shetland Grid is different from those of other regions in the UK. The difference is due to diverse management and financial approaches. The management deals with producers anticipated to work for Shetland situation.

Scottish and Southern Energy (2015) shows that the wind turbines turned off in summer as demand subsided, similar to a diesel generator during low demand. The switching off is a means of conservation that the settlement personnel can adopt. The study suggested the possibility for further study of alternative applications of the wind energy in heating demand, generation of gas and electric vehicles. The benefits of renewable production in this category of grid environment would have to be over a longer period based on UK market rates.

Shetland is a remote area just like the settlement under evaluation and analysis. Therefore, the possibility of using the wind as a source of energy is pertinent in the case study. However, the feasibility study of the settlement depends on the weather as per Mid-UK.

References

Abu-Sharkh, S. Arnold, R. J., Kohler, J., Li, R., Markvart, T., Ross, J.N., Steemers, K, P. Wilson, P., & Yao, R. (2006). Can microgrids make a major contribution to UK energy supply? Renewable and Sustainable Energy Reviews, 10, 78–127.

Barber, E. M., & Provey, J. (2010). Convert your home to solar energy. Newtown, CT, Taunton Press.

BC Hydro (2015). Hydro Electric Generation System. Retrieved from https://www.bchydro.com/energy-in-bc/our_system/generation/electric_generation.html

Chmiel, Z. & Bhattacharyya, C. S. (2015). Analysis of off-grid electricity system at Isle of Eigg (Scotland): Lessons for developing countries. Renewable Energy 81, 578-588.

Giddings, B. & Underwood, C. (2007). Renewable Energy in Remote Communities. Sustainable Cities Research Institute, Northumbria University, 6 North Street East.

Scottish and Southern Energy (2015). A New Energy Solution for Shetland. Stakeholder Feedback October 2014 – February 2015.

Tanrioven, M., 2005. Reliability and cost-benefits of adding alternate power sources to an independent micro-grid community. Journal of Power Sources, 150, 136–149.

ukstudentlife.com (2009). The British weather. ukstudentlife.com. Retrieved from http://www.ukstudentlife.com/Britain/Weather.htm

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