Project report on Biodiesel - Technology Book - Feasibility Report - Market Survey - Industrial Report

Manufacturing Technology of Biofuels, Biomethane, Bio Hydrogen, Bioethanol, Ethanol, Biodiesel, Fuels, Solid Biofuels & Renewal Energy Recovery

EIRI Team — Thu, 30 Aug 2018 11:59:12 +0000

Generally, the advancement of industrialization is accompanied by the increase in the production of industrial machines including diesel engines and automobiles, increasing the consumption of the diesel oil used as a fuel. Of various fuels produced, diesel oil is competitive because of its lower cost, but is problematic in that combustion using diesel oil as fuel causes greater pollution than other kinds of fuel. Bio-fuel development in India mainly around the cultivation and processing of Jatropha Plant seeds which are very rich in oil (40%). Jatropha provides immediate economic benefit at the local level since it grows well in dry marginal nonagricultural lands. In recent years there has been a renewed interest in alternatives to petroleum-based fuels . The alternative fuels must be technically acceptable , economically competitive, environmentally acceptable and easily available. The need for these fuels arises mainly from the standpoint of preserving global environment and concern about longterm supplies of conventional hydrocarbon based fuels. Among the different possible sources, bio- fuels derived from triglycerides (vegetable oil/ animal fats) present a promising alternative. Although triglycerides can fuel diesel engines their viscosities and poor cold flow properties have led to investigation of various derivatives. Fatty acid methyl esters derived from triglycerides and methanol known as bio-diesel, have received the most attention. Vegetable oils are widely available from a variety of sources. Unlike hydrocarbon based fue, the sulfur content of vegetable oil is zero and hence the environmental damage caused by sulphuric acid is reduced. For this whole world only vegetable oil will not be enough, so other alternatives should be worked out. The main advantage of bio-fuel is its renewability, better quality exhaust gas emission , its biodegradability and given that all the organic carbon present in photosynthetic in origin, it does not contribute to a rise in the level of CO2 in the atmosphere and consequently to the green house effect. There is no such publication available in the market.

We have compiled all the informations and published it in the form of a book. All the chapters of the book are arranged in a systematic manner. This particular book will be helpful to our Planning Commisioners, Scientists, Ph D Scholars and Students for their successful up to date informations.

Content Index

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Bio-Diesel from Algae

EIRI Team — Fri, 24 Jan 2014 07:58:40 +0000

High oil prices, competing demands between foods and other biofuel sources, and the world food crisis, have ignited interest in algaculture (farming algae) for making vegetable oil, biodiesel, bioethanol, biogasoline, biomethanol, biobutanol and other biofuels, using land that is not suitable for agriculture. Among algal fuels' attractive characteristics: they do not affect fresh water resources, can be produced using ocean and wastewater, and are biodegradable and relatively harmless to the environment if spilled. Algae cost more per unit mass (as of 2010, food grade algae costs ~$5000/tonne), due to high capital and operating costs, yet can theoretically yield between 10 and 100 times more energy per unit area than other second-generation biofuel crops. One biofuels company has claimed that algae can produce more oil in an area the size of a two car garage than a football field of soybeans, because almost the entire algal organism can use sunlight to produce lipids, or oil. The Department of Energy estimates that if algae fuel replaced all the petroleum fuel in the country, it would require 15,000 square miles (40,000 km2). This is less than 1⁄7 the area of wheat harvested in 2000.[ However, these claims remain unrealized, commercially.

Project Reports Cover:

Introduction
Uses and Applications
Properties
Market Survey with future aspects
Present Manufacturers
B.I.S. Specifications
Manufacturing Process with Formulae
Cost Economics with Profitability Analysis
Capacity
Land & Building Requirements with Rates
List & Details of Plant and Machinery with their Costs
Raw Materials
Details/List and Costs
Power & Water Requirements
Labour/Staff Requirements
Utilities and Overheads
Total Capital Investment
Turnover
Cost of Production
Break Even Point
Profitability
Land Man Ratio
Suppliers of Plant & Machineries and Raw Materials.

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Bio-diesel extraction from jatropha, soyabean, sunflower, rice bran, alge & cultivation of jatropha

EIRI Team — Tue, 08 Oct 2013 16:47:28 +0000

The depleting sources of fossil fuel, ever increasing crude oil Prices, increasing energy demand and global environmental concern Are driving the world to look for alternative fuel. Bio-fuels, Renewable liquid fuel extracted from biological raw material, Have proved to be a good substitute for oil. Bio-diesel is Forming a promising sustainable source of energy and is gaining World wide acceptance as a solution to problems of environmental Degradation, energy insecurity and restrictive price structure. Therefore the production of bio-diesel is becoming an Increasingly important element in global energy policies. India, A fast growing economy is facing the challenge of meeting a rapid Increase in its energy demand. Ranking sixth in the world in Terms of energy demand, the energy demands are slated to increase Substantially in view of projected high growth of our GDP. Presently India imports approximately 72 percent of its petroleum Requirement due to stagnating domestic crude production and Increase in energy consumption.

Project Report covers:

Introduction
Uses and Applications
Properties
Market Survey with future aspects
Present Manufacturers
B.I.S. Specifications
Manufacturing Process with Formulae
Plant Layout
Cost Economics with Profitability Analysis
Capacity
Land & Building Requirements with Rates
List & Details of Plant and Machinery with their Costs
Raw Materials
Details/List and Costs
Power & Water Requirements
Labour/Staff Requirements
Utilities and Overheads
Total Capital Investment
Turnover
Cost of Production
Break Even Point
Profitability
Land Man Ratio
Suppliers of Plant & Machineries and Raw Materials.

The post Bio-diesel extraction from jatropha, soyabean, sunflower, rice bran, alge & cultivation of jatropha appeared first on EIRI - eBooks and Project Reports.