Potential for liquid biofuels in Fiji

Cover of: Potential for liquid biofuels in Fiji | SOPAC Secretariat

Published by Community Lifelines Programme, Secretariat of the Pacific Islands Applied Geoscience Commission in Fiji] .

Written in English

Read online


  • Biomass energy,
  • Biodiesel fuels,
  • Ethanol as fuel,
  • Energy crops

Edition Notes

Book details

StatementSecretariat of the Pacific Islands Applied Geoscience Commission
SeriesSOPAC miscellaneous report -- 677
LC ClassificationsHD9502.5.B543 F4 2009
The Physical Object
Pagination42 p. :
Number of Pages42
ID Numbers
Open LibraryOL25044935M
LC Control Number2010474973

Download Potential for liquid biofuels in Fiji

Vegetable oils and their spinoff biofuels, unremarkably named as “biodiesel,” are prominent candidates as alternative diesel fuels. Twelve different blends of CNO, Ethanol and Butanol hybrid biofuel were tested for engine efficiency and it is discovered that they are technically competitive with or provide technical benefits compared to conventional diesel fuel.

Potential for liquid biofuels in Fiji / Secretariat of the Pacific Islands Applied Geoscience Commission Community Lifelines Programme, Secretariat of the Pacific Islands Applied Geoscience Commission [s.l.] Australian/Harvard Citation.

SOPAC Secretariat. About this book. Biofuels production is one of the most extensively studied fields in the energy sector that can provide an alternative energy source and bring the energy industry closer to sustainability. Biomass-based fuel production, or renewable fuels, are becoming increasingly important as a potential solution for man-made climate change, depleted oil reserves, and the dangers involved with hydraulic.

Fiji’s biofuel industry: perched for a soaring take-off. OpiniOn Biofuels () 4(6), – “ A review of Fiji’s National Energy is currently in the process of completion. One can only hope that its architects have taken on board the lessons that are being learnt about the efficacy of energy policies made in boardrooms.

” Anirudh. processes, and applications for liquid biofuels can be found in Canada at varying degrees of progress. To reach the full potential, it is important to understand the broad landscape of the biofuels industry and areas of promise. f this paper is to provide a comprehensive overview of the current state of liquid biofuels in Canada.

This includes. The book is divided roughly into two sections. The first section looks at liquid biofuel production from agricultural byproducts, densification of agricultural residues, and the delivery from farm to processing plant of waste and byproducts for use in biofuel production.

Environmental sustainability of biofuels 40 Economic sustainability of biofuels 50 Future trends 55 Appendix: Life cycle assessment (LCA) methodology 55 Sources of further information 57 References 58 4 Vegetable-based feedstocks for biofuels production 61 S.

pinzi and M.p. DoRaDo, University of Córdoba, Spain. Handbook of Biofuels Production, Second Edition. discusses advanced chemical, biochemical, and thermochemical biofuels production routes that are fast being developed to address the global increase in energy usage.

Research and development in this field is aimed at improving the quality and environmental impact of biofuels production, as well as the overall efficiency and output of biofuels.

Biofuels have the potential to reduce the energy and greenhouse gas emission intensities associated with transportation but can have other significant effects on society and the environment.

Depending on demand, crop growing conditions, and technology, they may require significant increases in cropland and irrigation water use. Liquid Biofuels. Liquid biofuels offer an alternative fuel for all types of internal combustion engines running on gasoline, diesel or kerosene, including for use in passenger vehicles, trucks, ships and airplanes.

REmap shows that liquid biofuels, including both conventional and advanced forms of ethanol and biodiesel, could account for 10% of transport sector energy use bymore than triple the. Potential biofuels for Fiji Among the possible indigenous biofuels or biofuel feedstocks that are currently produced, or can be readily produced in Fiji are coconut oil (CNO) and its derivatives, and ethanol.

Of these, the most readily and widely available is CNO. The employment prospects associated with liquid biofuels manufacturing are good: around 16 jobs per tonnes of biofuel can be created, mostly in rural areas.

The following sections discuss some of the different types of liquid biofuel in more detail [70, 72–74]. November ISBN: Download. Advanced liquid biofuels are a key part of low-carbon transport development to meet emission-reduction targets and international climate commitments.

Liquid biofuel is a promising alternative to petroleum-based fossil fuel. Lignocellulosic biomass (LCB) is considered as a potential source of biofuel since it is not food competitive always.

Moreover, it has a wide range of sources, such as agriculture residues, forest residues, grass, and energy crops. The government of Fiji is working to encourage investment in its local biofuel industry. According to information released by the country’s Ministry of Information this month, there are many opportunities for investments in renewable energy within Fiji, especially in the biofuels sector.

Biofuels also bring challenges and risks, including potential land-use conflicts, environmental risks, and heightened concerns about food security.

This book examines the potential of African countries to produce biofuels for export or domestic consumption and looks at the policy framework needed. Riazi (), who has a doctorate degree in Chemical Engineering from Pennsylvania State University (Penn State), is the author of publications including 6 books in the areas of oil, gas, coal and biofuel characterization, production and processing.

In addition he has over conference presentations and invited chair of international conferences, about invited. Fiji's biofuel potential is 'enormous'. Around million litres of biofuel is produced in Fiji each year, but this must.

Book Description. Biofuels and Rural Poverty makes an original contribution to the current controversial global debate on biofuels, in particular the consequences that large-scale production of transport fuel substitutes can have on rural areas, principally in developing countries but also in some poor rural areas of developed countries.

Three key concerns are examined from a North-South. Now let us see what liquid biofuels are, its types, advantages and facts to know about liquid biofuels.

They are used widely in industries and automobiles. Some of the commonly used liquid biofuels are biodiesel, bio ethanol, biogas, Biobutanol and biohydrogen.

handbook: potential of biomass, biofuel policies and biofuel life cycles. The use of biofuels largely depends on the potential of available feedstock sources.

The overall biofuel potential which largely depends on climate, land availability and the productivity of. However, the potential for successful deployment of technologies to produce liquid biofuel from lignocellulosic biomass and their cost reductions are surrounded by large uncertainties.

High cost of production of liquid fuels from lignocellulosic biomass and their commercial immaturity are major obstacles for the widespread application of liquid. Purchase Bioenergy - 1st Edition.

Print Book & E-Book. ISBNLiquid Biofuels in Pacific Island Countries – SOPAC Miscellaneous Report 3 ACKNOWLEDGEMENTS The author is grateful for the essential contributions of: William Burnyeat, Charlie Blair, Vincent. The term biofuels is commonly used with reference to liquid transportation fuels í i.e., ethanol and biodiesel í derived from agricultural, forest or any other organic material (feedstock).

Current global concerns about fossil fuel prices and availability, a renewed quest by manyFile Size: 1MB. 2 Royal Academy of Engineering Sustainability of biofuels – a complex topic Gauging the sustainability of liquid biofuels is a complex undertaking. However, complexity is no excuse for inaction as liquid biofuels will be needed if the UK’s ambitious decarbonisation targets are to.

The book is intended to inform policy makers and the larger development community of the global and domestic market opportunities facing biofuel producers, as well as the challenges of producing biofuels, in the Africa region.


The liquid biofuel in greatest production is ethanol (an alcohol), which is made by fermenting starch or sugar. In the United States—the leading producer—ethanol biofuel is made primarily from corn grain, and it typically is blended with gasoline to produce a fuel that is 10% ethanol.

Biofuels and Rural Poverty makes an original contribution to the current controversial global debate on biofuels, in particular the consequences that large-scale production of transport fuel substitutes can have on rural areas, principally in developing countries but also in some poor rural areas of developed countries.

Three key concerns are examined from a North-South perspective Cited by: by Jim Lane (Biofuels Digest) Vertimass had x scale-up in 12 months and increased liquid hydrocarbon yields from 36% to 80% in 8 months. And their. Liquid biofuels are one of the most exciting emerging areas of bioenergy as they address New Zealand’s largest energy supply problem – transport fuel.

Transport is currently dependent on finite fossil fuels such as oil and petroleum and is the third largest emitter of greenhouse gases, so it is important New Zealand moves towards more renewable and sustainable fuels for transport.

Find liquid biofuel (bioenergy) books and publications, the world’s largest energy industry marketplace and information resource. The book will highlight major trends and developments in the field of microbial fuels, with contributions from a number of highly experienced researchers.

It will serve as a comprehensive reference for industrial stakeholders, scientists, researchers and graduate students interested in Cited by: 3. Traditional agriculture and emerging biofuels technology produce a number of wastes and by-products, ranging from corn fiber and glycerin to animal manure, that have the potential to serve as the basis for additional sources of bioenergy that includes both liquid biofuels and biogas.

Biofuels from Agricultural Wastes and Byproducts is the first book to focus solely on the production of. On January 24–25,the Roundtable on Environmental Health Sciences, Research, and Medicine of the Institute of Medicine (IOM) held a 2-day, interactive, public workshop on the intersection of biofuels, climate change, and human health.

Liquid fuels are a major part of modern life. The Nexus of Biofuels, Climate Change, and Human Health is the summary of that workshop. This report examines air, water, land use, food, and social impacts of biomass feedstock as an energy resource, and the state of the science and health policy implications of using different types (and generations) of biofuels as an energy source.

Designed as a text not only for students and researchers, but anyone interested in green technology, Advanced Biofuels and Bioproducts offers the reader a vast overview of the state-of-the-art in renewable energies. The typical chapter sets out to explain the fundamentals of a new technology as well as providing its context in the greater field.

Liquid biofuels are of particular interest because of the vast infrastructure already in place to use them, especially for transportation. The liquid biofuel in greatest production is ethanol (ethyl alcohol), which is made by fermenting starch or sugar.

Brazil and the United States are among the leading producers of ethanol. In the United States ethanol biofuel is made primarily from corn. The techniques of remote sensing and GIS are then introduced, and examples of their potential application in the assessment of biomass and biofuel resources provided.

The need for a biofuel resource assessment for Fiji is then considered in detail. Finally, recommendations are made for a biomass and biofuel assessment strategy for the Pacific Author: Lalit Kumar, Anirudh Singh. Technologies to produce liquid biofuels for transportation 3 Figure 1.

Overview of biofuel pathways a These include gasoline or diesel equivalents, syngas and hydrogen. Source: Pena () Biomass Part of plants used Conversion step Products Oilseed crops Fats and oils Chemical Transesteri˜cation Hydrotreating Biodiesel or renewable diesel.The Biofuels Lab is a $ million initiative to develop a full suite of testing facilities for chemical and fuel properties of existing and potential Ma Read Full Article Farmers Urged to Grow Grass for Use as Biofuel.

The UK will play host to one of the first large scale demonstration of plants for advanced biofuels — liquid replacements for petrol made from waste materials — under plans to be unveiled by.

74289 views Saturday, November 7, 2020