Overview
Development of a bio-fuels industry in a developed and developing nations has the potential to increase food and land prices and the IEA has indicated that the relationship between agricultural and petroleum economics is so complicated that it introduces a high degree of uncertainty in cost-benefit ratio analyses of the development of the biofuels industry.However use of degradable resources such as algae, agricultural field crops and low cost processing conversion technologies may eliminate this problem. The benefits for developing countries' economies depend on low cost processing methods, but the conditions determining the balance are different in each country. Therefore, biofuel policies should be looked at on a case-by-case basis and evaluated in the light of specific circumstances such as economic conditions, climate, land and workforce availability, market size, fuel distribution and storage infrastructure, and car fleet characteristics. Agriculture or algal biomass is a renewable resource which, even in optimistic scenarios, considering the current technology, can only be expected to cover a modest fraction of the world's energy needs. If greenhouse gases' (GHG) reduction is the prime objective then governmental policy instruments should ensure that biomass is used where the complete supply chain, or where it is the best available alternative to replace carbon intensive energy products. This can only be achieved through assessing and comparing the different possible ways to use the available bio-resources. These may vary from country to country and region to region. Reduction of GHG emissions is a major driver for biofuels growth. It is therefore essential to be confident that those biofuels that are being encouraged (and often subsidised by governments) do indeed lead to substantial reductions of GHG emissions. This calls for globally agreed, transparent methodologies to assess the 'GHG footprint' of biofuels across their life cycle.Proper formulation of biofuels can help assure lower emissions of conventional fuel pollutants.
Full Product Details
Author: Lalit Ingale ,
Bhawana Lamba ,
Harshvadhan Patel
Publisher: Createspace Independent Publishing Platform
Imprint: Createspace Independent Publishing Platform
Volume: 1
Dimensions:
Width: 21.60cm
, Height: 1.40cm
, Length: 27.90cm
Weight: 0.694kg
ISBN: 9781539994626
ISBN 10: 1539994627
Pages: 212
Publication Date: 08 November 2016
Audience:
General/trade
,
General
Format: Paperback
Publisher's Status: Active
Availability: Available To Order
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Author Information
"Tanmay Kotasthane is young researcher worked at NARI, Phaltan and Indian Institute for Millets Research (IIMR) formerly, Directorate of sorghum Research, Hyderabad.He has good experience in the area of feed-stock development for biomass and bioenergy and was involved in world bank funded, National Agro Innovative Project(NAIP).He contributed in the development of two sorghum varieties and few sweet sorghum hybrids.He has published articles and research papers in high impact journals, edited book on ""Biofuel development and Applications for Renewable Energy"", attended conferences in India and abroad.He completed doctoral studies in biotechnology from Jawaharlal Nehru Technological University, Hydera"
