Feasibility analysis for sustainable technologies : an engineering-economic perspective /
Herriott, Scott R.,
Feasibility analysis for sustainable technologies : an engineering-economic perspective / Scott R. Herriott. - First edition. - 1 online resource (xiv, 299 pages) - Environmental and social sustainability for business advantage collection, 2327-3348 . - Environmental and social sustainability for business advantage collection. .
1. Sustainable technologies -- 2. Capacity -- 3. Efficiency -- 4. Constraints -- 5. Dependability -- 6. Cost structure -- 7. Break-even analysis -- 8. Basic financial analysis of technology -- 9. Valuation of commercial projects -- 10. Accounting for environmental benefits -- Appendices -- About the author -- Notes -- References -- Index.
Access restricted to authorized users and institutions.
This book leads the reader into a professional feasibility analysis for a renewable energy or energy efficiency project. The analysis begins with an understanding of the basic engineering description of technology in terms of capacity, efficiency, constraints, and dependability. It continues in modeling the cash flow of a project, which is affected by the installed cost, the revenues or expenses avoided by using the technology, the operating expenses of the technology, available tax credits and rebates, and laws regarding depreciation and income tax. The feasibility study is completed by discounted cash flow analysis, using an appropriate discount rate and a proper accounting for inflation, to evaluate the financial viability of the project. The elements of this analysis are illustrated using numerous examples of solar, wind, and hydroelectric power, biogas digestion, energy storage, biofuels, and energy-efficient appliances and buildings.
Mode of access: World Wide Web.
System requirements: Adobe Acrobat reader.
9781631570285
Sustainable development--Management.
Feasibility studies.
biofuels biogas digestion energy efficiency energy storage feasibility analysis feasibility study hydroelectric power renewable energy renewable power systems solar photovoltaics solar thermal electric power sustainable technologies wind power
[genre]
HD75.6
Feasibility analysis for sustainable technologies : an engineering-economic perspective / Scott R. Herriott. - First edition. - 1 online resource (xiv, 299 pages) - Environmental and social sustainability for business advantage collection, 2327-3348 . - Environmental and social sustainability for business advantage collection. .
1. Sustainable technologies -- 2. Capacity -- 3. Efficiency -- 4. Constraints -- 5. Dependability -- 6. Cost structure -- 7. Break-even analysis -- 8. Basic financial analysis of technology -- 9. Valuation of commercial projects -- 10. Accounting for environmental benefits -- Appendices -- About the author -- Notes -- References -- Index.
Access restricted to authorized users and institutions.
This book leads the reader into a professional feasibility analysis for a renewable energy or energy efficiency project. The analysis begins with an understanding of the basic engineering description of technology in terms of capacity, efficiency, constraints, and dependability. It continues in modeling the cash flow of a project, which is affected by the installed cost, the revenues or expenses avoided by using the technology, the operating expenses of the technology, available tax credits and rebates, and laws regarding depreciation and income tax. The feasibility study is completed by discounted cash flow analysis, using an appropriate discount rate and a proper accounting for inflation, to evaluate the financial viability of the project. The elements of this analysis are illustrated using numerous examples of solar, wind, and hydroelectric power, biogas digestion, energy storage, biofuels, and energy-efficient appliances and buildings.
Mode of access: World Wide Web.
System requirements: Adobe Acrobat reader.
9781631570285
Sustainable development--Management.
Feasibility studies.
biofuels biogas digestion energy efficiency energy storage feasibility analysis feasibility study hydroelectric power renewable energy renewable power systems solar photovoltaics solar thermal electric power sustainable technologies wind power
[genre]
HD75.6