GeothermalPower Generation in Michigan
GeothermalPower Generation in Michigan
Michiganserves as a leading state with energy production through geothermalpower plants. The state of Michigan formulates a largest progressivecontributor to American’s development in power generation.Geothermal projects operate on environmental conservative measurestargeting to boost the country’s economic development. A Geothermal power is an essential role segment influencing America’spolicy development and job creation. The project provides a platformthat generates positively economic developments based on specificstate improvement. Michigan employs geothermal power technique asmajor resources for community scale usage. This paper provides aresourceful segment on the development of geothermal power in thestate of Michigan. The discussion focuses of facts based on theprogressive developments within America in reference to powergeneration.
Geothermalpower serves as a major segment that generates energy to supply agiven community needs with reference to energy provision. Theapproach on geothermal power production in Michigan state addressconcerns over environmental hazards. Geothermal power production isenvironmental friendly with advanced HVAC systems. Geothermal poweris a state incentive in Michigan that also supports federal taxationcredits(Morris, 2007). Geothermalpower production in Michigan provides substantial results tolandowners, the immediate population of a given area and involvedstakeholders. Geothermal power is an environmental developmentproject that protects natural resources.
Geothermalpower is a development originating form decomposing matter within theearth’s surface. Kent County project is 2008 renovation site thatacts as an energy efficient plant in Michigan. The $1 million projectsustains Michigan with power energy through cooling systems installedduring a renovation process. The building is closed loop structuresystem that conserves power energy estimated to about $100,000 on anannual scale (Morris,2007).The project is modification of a technology realized in 63rdDistrict that engages in power conservation through erected coolingsystems. Kent design technology entails a 96 reservoir systemformulated to function on 24hrs duration. The geothermal systemgenerates power enough to supply about 45 homes working underefficient power consumptions.
Geothermalheat originates from within the earth’s surfaces that consist ofvarious matters. Internal earth process generates divergent movementswhich separate different earth layers generating heat. The heat is asource of energy on different levels of the earth’s layers.Sophisticated technology develops the heat from the earth’s surfacethrough various processes. The involved technology includes thedirect production and district heating. The geothermal processmajorly occurs in industrial plants such as reservoirs and othersprings(Morris, 2007). .As such, the development is a non-polluting source of energy withpositive environmental effects. The renewable project in Michigan isan abundant energy source which eliminates additional environmentalemissions.Geothermalpower generation is a cheaper source of energy compared to otherpower generation technologies. The projects in Michigan are asignificant approach to securing energy independence in America.
Geothermalpower production exists in varied natures including the process ofproduction. Hydrothermal resources involve steam water tapped throughextensive drilling from wells. Geopressured involve producing powerfrom deep water sources that contain methane as a major heat source.Earth energy also contributes to the production of power throughdevelopment of advanced heat pumps. Other geothermal productionsinvolve hot rocks and magma. The two processes revolve around thegeneration of power through high temperatures and circulatedcurrents. Geothermal power generation is a significant environmentalfriendly approach in Michigan. The process of geothermal powergeneration is natural and a renewable source of energy. Geothermalpower is a diverse power production scheme that covers householdneeds and industrial consumptions (Morris,2007).Geothermal power generation is exploitable and entails low productioncosts. The decision on generating power through geothermalapplication follows the readily available energy across naturalresources.
Geothermalplants require minimal spaces above the ground. As such, erectinggeothermal plants is a relatively affordable measure for any powergenerating company. Geothermal power production interferes withinternal earth movements causing unbalance in the earth surface. Theimbalance results to catastrophic earthquakes and other calamitiesassociated to crust intrusions. The initial construction costs ofgeothermal power production are relatively high compared to otherinterfaces during project development (Morris,2007).The technology behind geothermal power production requires heavymaintenance cost on the erected reservoirs. The processes involved ingeothermal power production result in the emission of greenhousegases. The gases have a direct impact on the atmosphere as a resultof the power plants. Geothermal reservoirs contain traces of metalsand react with associated gases such as Sulfur dioxide.
Michiganranks as the top state in American on the progressive development ofgeothermal power generation and supply. Geothermal energy is aleading environmental friendly application. Geothermal plantsgenerate massive power energy with direct impacts on industrialproduction. The general power assessments rate a geothermal powerproduction as an accurate process with reference to heat transfer.Geothermal production provides sufficient base load demands withaccurate energy productions. Kent county project is an exemplaryproject of a geothermal power plant in Michigan.
Morris,N. (2007). Geothermalpower.North Mankato, MN: Smart Apple Media.