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ISBN 978-967-2145-22-6 Author : Boon Cheong Chew This book focuses mainly on the UK 1G biofuels implementation and suggested that the ubiquity of the 1G biofuels sustainability issues do not adequately explain the controversy which has created. Insted, the social-technical curtain of this 1G biofuels deployment, which could be trace from 2008 when the 1G biofuels were firstly commenced and deployed in UK under the Renewable Transport Fuel Obligation 2008. This book presents the evidence and implications of the 1G biofuels controversy: ‘food-fuel competition’ and ‘biodiversity threatened’ (termed as systemic risks), while further discussed the confluence social factors which have caused these systemic risks to happen during UK 1G biofuels deployment.
Traces the pitfalls of a biotech-funded green energy of an economy, and its consequences for our planet's future There is by now no question among informed people that the Earth is undergoing severe climate change – soon to become catastrophic, if humans don’t take drastic measures to stop it. Heroically into the fray steps the biofuel industry, announcing to millions of anxious consumers that this eco-crisis can be averted if only they turn away from fossil fuels, to the saving power of synthetic bioproducts. But, although eliminating fossil fuels is essential, the manufacture of biofuels has far more to do with sating profit-hungry corporations than with saving the Earth. Combining meticulous scientific narrative with devastating economic analysis, The Biofuels Deception argues that the seemingly innovative, hopeful campaign for “green energy” is actually driven by bio-technology industries and global grain-trading corporations. These corporate players are motivated by a late-capitalist need to cope with a crisis of accumulation; they have no real interest in mitigating climate-change, alleviating poverty, or even creating “clean” energy. In fact, the manufacture of biochemical, bioplastics, and biomaterials, writes Okbazghi Yohannes, portends horrific contradictions and disastrous consequences for nature and society. Actually confronting climate change and the rampant inequality it engenders, Yohannes says, requires two steps. The first is to understand the driving socioeconomic forces behind the biofuels industry. The second is to unravel the tapestry of deceit itself. This book is a necessity for any scholar or environmental activist interested in seeing beyond corporate chimeras to actual environmental solutions.
We are squandering our planet’s natural capital—its biodiversity, water and soil, and climate stability—at a blistering pace. Major changes must be made to steer our planet and people away from our current, doomed course. Though technology has been one of the drivers of the current trend of unsustainable development, it is also one of the essential tools for remedying it. Earth at Risk maps out the necessary transition to sustainability, detailing the innovations in science and technology, along with law, institutional design, and economics, that can and must be put to use to avert environmental catastrophe. Claude Henry and Laurence Tubiana begin with a measure of the costs of ecological damage—the erosion of biodiversity; air, water, and soil pollution; and the wide-reaching effects of climate change—and then consider the solutions that are either now available or close on the horizon and that may lead to a more sustainable global trajectory. What community-driven or market-based tools can be used to promote sustainable development? How can renewable energy and energy storage advances help us decrease our use of fossil fuels? How can we substitute agroecology for the damaging chemical methods of industrialized agriculture? Is international agreement on climate goals possible? Building on the experience of the most significant climate negotiation of the decade, Earth at Risk shows what a world organized along the principles of sustainability could look like, no matter how optimistic it may seem at the present moment. Though formidable obstacles remain to the realization of this significant transition, Henry and Tubiana present the case for collective initiatives and change that build momentum for implementation and action.
3rd Generation Biofuels: Disruptive Technologies to Enable Commercial Production is a comprehensive volume on all aspects of algal biofuels, offering the latest advances on commercial implementation. In addition to the fundamentals, the book discusses all applied aspects of 3rd generation biofuels production, including design approaches, unit operations of the upstream and downstream biomass processing, and every potential microalgae-based energy product, including microbial fuel cells. Policy, economic, environmental, and regulatory issues are addressed in a dedicated section. Finally, the book presents pilot and demonstration-scale projects for 3rd generation biofuels production in the format of a white paper. Each chapter reviews the state of the art, discusses the disruptive technological approaches that will potentially enable large-scale production, and concludes with specific recommendations on how to achieve commercial competitiveness. The book provides readers with an invaluable reference for researchers, graduates, and practitioners working in the areas of renewable energy, bioenergy and alternative fuels, and biotechnology. - Offers a sequential framework for the design of process plants using 3rd generation feedstock - Presents dedicated sections on case studies at pilot and demonstration scales as well as on policy, economic, and environmental issues - Provides a global perspective on biofuels production, with more than 40 contributions from world-renouned experts
Work of the Committee In 2007 : Third report of session 2007-08, report, together with formal Minutes
Nearly everyone accepts as gospel two assumptions: compliance with environmental rules is high, and enforcement is responsible for making compliance happen. Both are wrong. In fact, serious violations of environmental regulations are widespread, and by far the most important driver of compliance results is not enforcement but the structure of the rule itself. In Next Generation Compliance, Cynthia Giles shows that well-designed regulations deploying creative strategies to make compliance the default can achieve excellent implementation outcomes. Poorly designed rules that create many opportunities to evade, obfuscate, or ignore will have dismal performance that no amount of enforcement will ever fix. Rampant violations have real consequences: unhealthy air, polluted water, contaminated drinking water, exposure to dangerous chemicals, and unrestrained climate-forcing pollution. They also land hardest on already overburdened communities - that's why Next Gen and environmental justice are tightly linked. The good news is there are tools to build much better compliance into regulations, including many tested strategies that can be the building blocks of programs that withstand the inevitable pressures of real life. Next Generation Compliance shows how regulators can avoid the compliance calamities that plague far too many environmental rules today, a lesson that is particularly urgent for regulations tackling climate change. It has an optimistic message: there are ways to ensure reliable results, if regulators jettison incorrect assumptions and design rules that are resilient to the mess and complexity of the real world.
This is the first book to present the idea of Industry 5.0 in biomanufacturing and bioprocess engineering, both upstream and downstream. The Prospect of Industry 5.0 in Biomanufacturing details the latest technologies and how they can be used efficiently and explains process analysis from an engineering point of view. In addition, it covers applications and challenges. FEATURES Describes the previous Industrial Revolution, current Industry 4.0, and how new technologies will transition toward Industry 5.0 Explains how Industry 5.0 can be applied in biomanufacturing Demonstrates new technologies catered to Industry 5.0 Uses worked examples related to biological systems This book enables readers in industry and academia working in the biomanufacturing engineering sector to understand current trends and future directions in this field.
We urgently need to transform to a low carbon society, yet our progress is painfully slow, in part because there is widespread public concern that this will require sacrifice and high costs. But this need not be the case. Many carbon reduction policies provide a range of additional benefits, from reduced air pollution and increased energy security to financial savings and healthier lifestyles, that can offset the costs of climate action. This book maps out the links between low carbon policies and their co-benefits, and shows how low carbon policies can lead to cleaner air and water, conservation of forests, more sustainable agriculture, less waste, safer and more secure energy, cost savings for households and businesses and a stronger and more stable economy. The book discusses the ways in which joined-up policies can help to maximise the synergies and minimise the conflicts between climate policy and other aspects of sustainability. Through rigorous analysis of the facts, the author presents well-reasoned and evidenced recommendations for policy-makers and all those with an interest in making a healthier and happier society. This book shows us how, instead of being paralysed by the threat of climate change, we can use it as a stimulus to escape from our dependence on polluting fossil fuels, and make the transition to a cleaner, safer and more sustainable future.
In the United States, we have come to depend on plentiful and inexpensive energy to support our economy and lifestyles. In recent years, many questions have been raised regarding the sustainability of our current pattern of high consumption of nonrenewable energy and its environmental consequences. Further, because the United States imports about 55 percent of the nation's consumption of crude oil, there are additional concerns about the security of supply. Hence, efforts are being made to find alternatives to our current pathway, including greater energy efficiency and use of energy sources that could lower greenhouse gas (GHG) emissions such as nuclear and renewable sources, including solar, wind, geothermal, and biofuels. The United States has a long history with biofuels and the nation is on a course charted to achieve a substantial increase in biofuels. Renewable Fuel Standard evaluates the economic and environmental consequences of increasing biofuels production as a result of Renewable Fuels Standard, as amended by EISA (RFS2). The report describes biofuels produced in 2010 and those projected to be produced and consumed by 2022, reviews model projections and other estimates of the relative impact on the prices of land, and discusses the potential environmental harm and benefits of biofuels production and the barriers to achieving the RFS2 consumption mandate. Policy makers, investors, leaders in the transportation sector, and others with concerns for the environment, economy, and energy security can rely on the recommendations provided in this report.