Analyze the Landfill Gas Industry.DUBLIN, Ireland -- Research and Markets (http://www.researchandmarkets.com/reports/c58583) has announced the addition of "Analyzing the Landfill Gas Industry" to their offering. With the increasing global focus of energy conservation and stress on clean generation, Landfill Gas has emerged as a source which is available backdoor See trapdoor. , is proven to be economical in cost perspective and is a growing energy resource in the modern world. The mounting advent of mega cities with their generation of mega tones of waste materials coupled with their growing energy consumption needs, has forced civilization to take a deeper look at understanding energy recycling in every from as available at many sources like a sum total zero equation. Realizing the potential of this, as of January 2005 there were 375 LFG LFG Landfill Gas LFG Lincoln Financial Group (insurance & financial planning company) LFG Looking For Group (Everquest) LFG Lexical-Functional Grammar (computational linguistics) energy (LFGE) projects in the United States, generating clean electricity or providing a direct-use energy source for boilers, furnaces, and other applications. Approximately 100 direct-use LFGE projects in operation burned over 70 billion cubic feet (bcf) of LFGE in 2004. According to the US Environmental Protection Agency's (EPA EPA eicosapentaenoic acid. EPA abbr. eicosapentaenoic acid EPA, n.pr See acid, eicosapentaenoic. EPA, n. ) Landfill Methane Outreach Program (LMOP LMOP Landfill Methane Outreach Program (EPA) ), there are still over 600 landfills that are viable candidates for project development, with a potential gas flow capacity of over 280 bcf per year. Looking at LFG in technical terms, it is a byproduct by·prod·uct or by-prod·uct n. 1. Something produced in the making of something else. 2. A secondary result; a side effect. Noun 1. of the decay process carried out on LFG at municipal solid waste “Municipal waste” redirects here. For other uses, see Municipal waste (disambiguation). Municipal solid waste (MSW) is a waste type that includes predominantly household waste (domestic waste) with sometimes the addition of commercial wastes collected by a (MSW (MicroSoft Word) See Microsoft Word. ) landfills. The gas generated from such landfills is an approximate composition of 50% methane and 50% carbon dioxide carbon dioxide, chemical compound, CO2, a colorless, odorless, tasteless gas that is about one and one-half times as dense as air under ordinary conditions of temperature and pressure. , coupled with some additional trace compounds. The source heat value of LFG ranges from 400 to 600 British Thermal Units British thermal unit, abbr. Btu, unit for measuring heat quantity in the customary system of English units of measurement, equal to the amount of heat required to raise the temperature of one pound of water at its maximum density [which occurs at a temperature of 39. (Btu)/cubic foot and can be adapted to burn in any number of applications by carrying out minor adjustments to fuel/air ratios. The applied usage of LFG provides comprehensive economic and environmental benefits and the users of LFG have achieved significant cost savings as compared to their earlier use of traditional fuels. This has mainly been due to the fact that LFG costs are composed of consistently lower costs than the cost of natural gas. Secondly, the presence of 50% methane in LFG presents a strong environmental case of consuming the gas by burning it as an industrial or residential fuel rather than allowing it's release in the environment which affects us by causing the green house effect. This will help us build a sustainable future with communities and economic progress intact. This report pertains to the basics of understanding the composition, natural production and transportation of Landfill Gas in the normal economic model. The report analyzes the limitations to the production of LFG and the best periods to capitalize on the generation of the gas. Certain hazards posed by this gas which warrant safe usage practices along with the procedures to assess the potential biohazard bi·o·haz·ard n. 1. A biological agent, such as a virus or a condition that constitutes a threat to humans, especially in biological research or experimentation. 2. any landfill site presents before LFG can be harvested from it. Any energy analysis is not complete without understanding the environmental impact of that energy source and the technologies deployed for the effective treatment of this energy resource in order to make it safe, clean and usable. The report also analyzes the control measures used in order to utilize LFG as an effective energy tool after the recovery and storage of LFG leading to energy generation. The report also analyzes certain case studies of such implementation of LFG processes. Topics Covered: -Executive Summary -Regulatory Structures -Safety & Health Concerns to LFG -Determining Landfill Gas Environmental Impact -Deriving Landfill Gas Samples & Monitoring Processes -Pretreating Processes for Landfill Gas -Secondary Pretreatment pretreatment, n the protocols required before beginning therapy, usually of a diagnostic nature; before treatment. pretreatment estimate, n See predetermination. Processes -Landfill Gas Controlled Harvestation -Capitalizing on Collected LFG -Energy Generation from LFG Recovery -Case Studies -Landfill Gas Industry in the United States -Landfill Gas Management in Canada -Potential of LFG in Latin America & Caribbean Region For more information, visit http://www.researchandmarkets.com/reports/c58583. |
|
||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion