Cleaner Development for Safe and Sustainable Living on Earth: Policy Measures and Technological Innovations (Education for Industries and Business Managers)

Rajiv Kumar Sinha, Shweta Singh and Brijalkumar K. Soni
Griffith University, Brisbane, Australia

Series: Environmental Science, Engineering and Technology
BISAC: SCI026000

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$195.00

Volume 10

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Volume 2

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Special issue: Resilience in breaking the cycle of children’s environmental health disparities
Edited by I Leslie Rubin, Robert J Geller, Abby Mutic, Benjamin A Gitterman, Nathan Mutic, Wayne Garfinkel, Claire D Coles, Kurt Martinuzzi, and Joav Merrick

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Cleaner production is defined as the continuous application of an integrated preventive strategy for environmental protection in the developmental processes applied to products and services in industries & business organizations to increase overall efficiency and reduce risks to humans (consumers and industrial workers) and the environment from the hazardous chemicals and materials used in the production process. Cleaner production requires applying know-how, improving technology and changing attitudes.

Since 1950, there has been a tremendous increase in the production of diverse chemicals to satisfy our demands for consumer goods. According to the UNEP, worldwide nearly 80,000 chemicals are used every day and about 1500 new chemicals are added every year. A green chemistry movement is going on to develop environmentally benign chemicals and chemical processes to be applied in chemical industries and industries depending on chemicals such as paper, plastic, textile, dyeing, printing, photography, agriculture, and electronics.
Clean air, water and food are the basis of life on earth. Combustion of fossil fuels in industries, for power generation and in automobiles is the major source (90-95 %) of chemical air pollutants and greenhouse gas emissions. Promotion of solar, wind, and hydrogen fuel technology will completely eliminate them.

Chemically grown foods by agrochemicals are badly affecting human health. Some 25 million farmers are poisoned by pesticides, and some 10 to 20 thousand die every year from this. US scientists predict up to 20,000 Americans may die of cancer every year, due to low levels of residual pesticides in chemically grown foods. Hence, producing chemical-free foods by organic farming using biofertilizers and biopesticides is the only hope for civilization. Earthworms (Charles Darwin’s ‘friends of farmers’) & its vermicompost (produced from Organic wastes) promote high crop growth and also protect from pests and diseases. Earthworms can also clean (detoxify and disinfect) polluted lands and wastewater.

Potable water is a vanishing resource on Earth. Since 1950, global water use has more than tripled. Out of total water available on Earth, 97.5 % is saline. Nearly 2 % is frozen in polar icecaps & mountains. Only less than 1 % of groundwater and surface water is usable as potable water. Desalination technology to clean seawater into drinkable water is the only hope for civilization.
Eco-efficiency in use of raw materials, water and energy resources is also important because the natural resources of Earth are finite, and their demand is getting infinite with an increasing population and growing consumerism all over world. Eco-efficiency will also reduce waste and pollution, and GHG emissions with economic gains for the industries.
UNEP has pioneered the promotion of cleaner production philosophy. It called for all national governments for a long-term action plan to incorporate environmental concerns and problems, focusing on cleaner production into their educational curricula, especially in engineering and business management courses. Additionally, it called for the incorporation of developmental policies enacted for industries and business organizations. A joint Indo-Australian bilateral meeting on a clean development mechanism was organized in New Delhi in 2001.
(Imprint: Nova)

Foreword

Acknowledgement

Preface

Author's Contact Information

Chapter 1. Introduction: What is Cleaner Production and Why Cleaner Production: The Strategies, Objectives and Benefits of Cleaner Production for Environment and Society

Chapter 2. The Global Movement for Cleaner Production and Sustainable Development in Industries: The Foundation of Comfortable Living on Earth

Chapter 3. Eco-efficiency: The Key to Maximizing Production While Minimizing Resource Use and Waste Generation in Industries: A Recipe for Cleaner Production and Sustainable

Chapter 4. The Technological Revolution: Its Good and Bad Legacies for Mankind: Development of Green Environmental Technologies for Cleaner Production to Give Better Quality of Life at Low or No Environmental Cost

Chapter 5. The Green Chemistry Movement for Replacing Toxic Chemicals by Safe & Benign Chemicals in Industries

Chapter 6. The Clean Energy Movement for Reducing Pollution and Abating Global Warming & Climate Change: Embarking on Hydrogen Fuel, Geothermal, Solar, Oceanic & Wind Power, Biomass & Clean Coal Technology for Safe Future of Mankind

Chapter 7. Cleaning of Environment by Bioremediation Technology: Detoxification and Disinfection of Polluted Lands & Water Bodies by Plants, Microbes and the Earthworms - Charles Darwin’s Unheralded Soldiers of Mankind

Chapter 8. Cleaner Production in Agriculture by Organic Farming : Producing Safe, Chemical-Free & Health Protective Foods for Civilization While Eliminating the Deadly Agrochemicals from Earth

Chapter 9. Cleaner Production Initiatives in Australia: Some Policy Measures and Technological Innovations

Chapter 10. Cleaner Production Initiatives in India:Some Policy Measures & Technological Innovations

Conclusion and Remarks

References and Additional Readings

Index

Audience:
1). All Students doing courses in ENVIRONMENTAL SCIENCE & ENGINEERING & BUSINESS MANAGEMENT
2). All Research Scholars working in the areas of Chemical-Free FOOD PRODUCTION (ORGANIC FARMING & SUSTAINABLE AGRICULTURE), Development of BENIGN CHEMICALS for Industrial Uses, CLEAN ENERGY PRODUCTION & SAFE MANAGEMENT of HUMAN WASTES (Solid Wastes & Wastewater).
3). All Managers working for SUSTAINABLE INDUSTRIALIZATION
4). Members of ENERGY Industries Embarking on SOLAR & WIND POWER, HYDROGEN FUEL & other RENEWABLE ENERGY TECHNOLOGIES
5). Automobile Industries Embarking on HYDROGEN Powered ZERO Emission Automobiles
6). Members of Municipal Councils looking for SAFE MANAGEMENT of Municipal & Industrial WASTES (both Solids & Wastewater) & CONSERVATION of Potable WATER resources for society;
7). All FARMERS wanting to get rid of AGROCHEMICALS (proving to be slow poison for them) & switch over to ORGANIC FARMING.

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