Download Free New Directions For Hazardous Waste Management In North Carolina Book in PDF and EPUB Free Download. You can read online New Directions For Hazardous Waste Management In North Carolina and write the review.

This book explores novel research perspectives on the intersection of environmental/natural resource economics and productivity analysis, emphasizing the link between productivity and efficiency measurement and environmental impacts. The purpose of the book is to present new approaches and methods for measuring environmentally adjusted productivity and efficiency, and for incorporating natural resources in standard national accounting practices. These methods are applicable in many contexts, including air and water pollution, climate change, green accounting, and environmental regulation
Waste management is the collection, transport, processing, recycling or disposal of waste materials. The term usually relates to materials produced by human activity, and is generally undertaken to reduce their effect on health, aesthetics or amenity. Waste management is also carried out to reduce the materials' effect on the environment and to recover resources from them. Waste management can involve solid, liquid or gaseous substances, with different methods and fields of expertise for each. Waste management practices differ for developed and developing nations, for urban and rural areas, and for residential and industrial, producers. Management for non-hazardous residential and institutional waste in metropolitan areas is usually the responsibility of local government authorities, while management for non-hazardous commercial and industrial waste is usually the responsibility of the generator. This book concentrates on the newest research in the field.
Available this summer in its Eighth Edition, RosenbaumÆs classic, comprehensive text once more provides definitive coverage of environmental politics and policy, lively case material, and a balanced assessment of current environmental issues. Notable revisions include: * A completely revamped energy chapter covering conventional energy policy as well as a comparative examination of alternatives to current energy production. ò Expanded discussion of current U.S. climate change policy with attention to the role of the states, the impact of global environmental politics, and emerging technologies on policy alternatives. ò Analysis of the Obama administrationÆs energy agenda and its profound differences from Bush administration policies and the practical difficulties of creating an effective political coalition in support of the new policy agenda. ò Greater emphasis on executive-congressional relations in the policy-making cycle. ò Examination of changes in the environmental movement, with particular attention to newly emerging cleavages over energy and climate issues. ò A thorough updating of all policy chapters, including an examination of such topics as ômountain top removal,ö the emergence of Bisphenol A as an endocrine disruptor issue, and the ônew NIMBYism.ö New and revised tables, figures, and other data illustrate key environmental information while a new, detailed timeline frames the initial chapterÆs historical narrative of evolving environmental policy.
FROM THE INTRODUCTION This three-volume series, Bioremediation: Principles and Practice, provides state of the art description of advances in pollution treatment and reduction using biological means; identify and address, at a fundamental level, broad scientific and technological areas that are unique to the subject or theme and that must be understood if advances are to be made; and provide a comprehensive overview of new developments at the regulatory, desk-top, bench-scale, pilot scale, and full-scale levels. The series covers all media-air, water, and soil/sediment-and blends the talents, knowledge, and know-how of academic, industrial, governmental, and international contributors. The series addresses the removal of both hazardous and nonhazardous contaminants from the liquid, solid, and gas phase using biological processes. This includes the biological treatment of wastes of municipal and industrial origin; bioremediation of leachates, soils, and sediments; and biofiltration for contaminated gases.