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Future Energy: Improved, Sustainable, and Clean Options for Our Planet

  • by Trevor Letcher
Published/Copyright: September 1, 2009
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Chemistry International -- Newsmagazine for IUPAC
From the journal Chemistry International -- Newsmagazine for IUPAC Volume 30 Issue 2

Future Energy: Improved, Sustainable, and Clean Options for Our Planet

by Trevor Letcher

Current debates about energy policy involve two key issues, fuel shortages (oil, coal and gas) and atmospheric pollution resulting from the burning of that oil, coal and gas—both of these are chemical issues.

We have the technical know-how to use less energy per capita and retain a reasonable standard of living, but we do not appear to have the will to implement such a plan. The public is either not convinced of the need to reduce energy usage, too lazy, or just plain greedy. Governments are aware of energy problems, such as “the peaking of oil reserves,” but still they do not enforce energy saving actions and only pay lip-service to them. One can only assume that the huge tax revenues and profits from oil and gas stocks and shares overwhelms their sense of duty. Oil companies are now so large (5 of the largest 10 companies in the world are oil companies) that they appear to be more powerful than state governments.

The objective of this new IUPAC project is to publish a book that first considers the reasons for developing alternate forms of energy and then details all the possible forms available to us. Each chapter of the book will be written by an engineer or scientist working in the field.

Each of the book’s 22 chapters will detail a form of energy that will be available to us, globally, over the next few decades. The review will focus on all types of energy available to us, taking into account our major problems: reducing our dependence on fossil fuel, reducing the amount of carbon dioxide we produce, and finding a suitable fuel for our transportation system.

The book will be unique among available titles in the same genre because each chapter will be written by a scientist or engineer who is an expert in his or her field. Each chapter highlights the details, scope, and problems associated with a particular type of energy. New and emerging forms of energy will be covered, including wave power, tidal energy, recent developments in battery and fuel cell technology, the hydrogen economy, tar sands, wind energy, solar (concentrated), solar (photovoltaic), and geothermal. However, old forms of energy will not be forgotten and there will be chapters on the latest improvements in coal burning, oil and gas burning, oil from coal and methane technology, bio-fuels, carbon dioxide capture and storage, hydroelectric power, and nuclear fission. Areas of great potential that have not yet come of age, such as pebble bed nuclear reactors, methane gas hydrates, energy storage, and nuclear fusion, are also dealt with. Looking at the whole spectrum of options in the book, it should be possible to discern which forms of energy best suite us now and in the future.

This book is part of the education process needed to boost public appreciation and understanding of science. It will present a non-political and unemotional set of solutions to the problems facing us—and it will offer a way forward. We hope that the book will be of interest to students, teachers, and professors and researchers of new energy, as well as politicians, government decision makers, captains of industry, corporate leaders, journalists, and editors.

For more information, contact the Task Group Chair Trevor Letcher <trevor@letcher.eclipse.co.uk>.

www.iupac.org/projects/2007/2007-015-2-100.html

Page last modified 24 March 2008.

Copyright © 2003-2007 International Union of Pure and Applied Chemistry.

Questions regarding the website, please contact edit.ci@iupac.org

Published Online: 2009-09-01
Published in Print: 2008-03

© 2014 by Walter de Gruyter GmbH & Co.

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  2. From the Editor
  3. Contents
  4. The Role of ICTNS in the Project System
  5. The Father of Toxicology?
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  7. Scientifiques Sans Frontières Australia
  8. Three Decades of IUPAC Initiatives
  9. Goals and Outcomes of the Flying Chemist Program
  10. Council Round Table Discussions: Actions Arising from Torino
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  16. Green Book: Abridged Version
  17. Postgraduate Course in Polymer Science
  18. Chemical Issues in Biomass Burning in Sub-Saharan Africa
  19. Green Chemistry, Sustainable Development, and Social Responsibility of Scientists
  20. Provisional Recommendations
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  22. Band Broadening Function in Size Exclusion Chromatography of Polymers
  23. Green-Sustainable Chemistry
  24. Biophysico-Chemical Processes of Heavy Metals and Metalloids in Soil Environments
  25. Functional and Biological Gels and Networks: Theory and Experiment
  26. Polychar-15 World Forum on Advanced Materials
  27. Heterocyclic Chemistry at a Glance
  28. Compendi De Nomenclatura De Química Analitica
  29. Greenhouse Gases: Mitigation and Utilization
  30. Mendeleev Congress on General and Applied Chemistry
  31. Novel Materials and Fine Chemistry
  32. Public Health Applications of Human Biomonitoring
  33. Vanadium
  34. Solubility and Equilibria
  35. Humic Substances
  36. Macromolecules and Materials
  37. Chemistry for Sustainable Development
  38. Thermophysical Properties
  39. Mark Your Calendar
https://doi.org/10.1515/ci.2008.30.2.20

Articles in the same Issue

  1. Masthead
  2. From the Editor
  3. Contents
  4. The Role of ICTNS in the Project System
  5. The Father of Toxicology?
  6. Chemistry for Biology
  7. Scientifiques Sans Frontières Australia
  8. Three Decades of IUPAC Initiatives
  9. Goals and Outcomes of the Flying Chemist Program
  10. Council Round Table Discussions: Actions Arising from Torino
  11. Solubility Data Compilations for the Practicing Chemist
  12. Water in the Gaza Strip
  13. Luis Oro to become EuCheMS President
  14. On the Environmental Impact of Altered Pesticide Use on Transgenic Crops
  15. Future Energy: Improved, Sustainable, and Clean Options for Our Planet
  16. Green Book: Abridged Version
  17. Postgraduate Course in Polymer Science
  18. Chemical Issues in Biomass Burning in Sub-Saharan Africa
  19. Green Chemistry, Sustainable Development, and Social Responsibility of Scientists
  20. Provisional Recommendations
  21. Acetonitrile: Ternary and Quaternary Systems
  22. Band Broadening Function in Size Exclusion Chromatography of Polymers
  23. Green-Sustainable Chemistry
  24. Biophysico-Chemical Processes of Heavy Metals and Metalloids in Soil Environments
  25. Functional and Biological Gels and Networks: Theory and Experiment
  26. Polychar-15 World Forum on Advanced Materials
  27. Heterocyclic Chemistry at a Glance
  28. Compendi De Nomenclatura De Química Analitica
  29. Greenhouse Gases: Mitigation and Utilization
  30. Mendeleev Congress on General and Applied Chemistry
  31. Novel Materials and Fine Chemistry
  32. Public Health Applications of Human Biomonitoring
  33. Vanadium
  34. Solubility and Equilibria
  35. Humic Substances
  36. Macromolecules and Materials
  37. Chemistry for Sustainable Development
  38. Thermophysical Properties
  39. Mark Your Calendar
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