Montgomery, J. H.
Groundwater Chemicals Desk Reference 4th ed.
CRC Press 2007.5
1752 pp. (H)
ISBN 0-8493-9276-4
37,000円
Contents
1.Alphabetical Listing of Compounds. 2.CASRN Index. 3.Empirical Formula Index. 4.Synonym Index. 5.Degradation Product and Impurity Index. 6.Appendix: Environmental Fate Data for Miscellaneous Compounds. 7.References/ *
* Using a clear and consistent format, this fourth edition contains more than 1,700 additional references and additional adsorption data for more than 800 organic compounds and metals, Henry's Law constants for 1,850 compounds, aqueous solubility data for over 2,500 compounds, toxicity data for 1,100 compounds, more than 31,000 synonyms, and 2,224 degradation products cross-referenced to parent compounds. Additional organic and inorganic solubilities, conversion factors, octanol-water partition coefficients, environmental fate data, analytical test methods, dielectric properties of various materials and liquids, and other tables and indexes have been added along with references for numerous physical parameters. *
Howd, R. A. & Fan, A. M.
Risk Assessment for Chemicals in Drinking Water
飲料水の化学物質リスクアセスメント
John Wiley & Sons 2007.11
392 pp.(H)
ISBN 0-471-72344-4
13,200円
Contents
* A comprehensive reference on state-of-the-art risk assessment methodologies for drinking water
* Risk Assessment for Chemicals in Drinking Water discusses the major steps and goals in risk assessments and suggests ways to improve the methodologies and accuracy, while consolidating up-to-date information on the current principles and practices in one authoritative reference. After an enlightening overview of risk assessment practices and regulatory guidelines, it:
* Includes descriptions of the use of variability analysis, exposure analysis, physiologically based pharmacokinetics, and modeling for both cancer and non-cancer endpoints/
* Describes the practices of major organizations, including the U.S. EPA, Health Canada, World Health Organization, and California Office of Environmental Health Hazard Assessment/
* Includes complete chapters on risk assessment for essential nutrients, arsenic, chloroform, and perchlorate/
* Explains how to address susceptible sub-populations, including the elderly and infants and children, in risk assessments/
* Covers the potential of using genomic and proteomic screens/ * Addresses recent advances, emerging issues, and future challenges/ *
Franklin, R. & Mills, A. ed.
The Spatial Distribution of Microbes in the Environment
Springer-Verlag 2007.
333 pp(H)
ISBN 1-4020-6215-X
21,700円
Contents
Contributing Authors/ .Preface/ .Acknowledgements/ 1.Introduction/ 2.Statistical Analysis of Spatial Structure in Microbial Communities/ 3.Bacterial Interactions at the Microscale - Linking Habitat to Function In Soil/ 4. Spatial Distribution of Bacteria at the Microscale In Soil/ 5.Analysis Of Spatial Patterns Of Rhizoplane / 6.Microbial Distributions And Their Potential Control-Ling Factors In Terrestrial Subsurface Environments/ 7.Spatial Organisation Of Soil Fungi/ 8.Spatial Heterogeneity of Planktonic Microorganisms in Aquatic Systems/ 9.The Interrelationship Between the Spatial Distribution of Microorganisms and Vegetation in Forest Soils/ Index/
* This volume highlights recent advances that have contributed to our understanding of spatial patterns and scale issues in microbial ecology, and brings together research conducted at a range of spatial scales (from m to km) and in a variety of different types of environments. These topics are addressed in a quantitative manner, and a primer on statistical methods is included to aid the unfamiliar reader. In soil ecosystems, both bacteria and fungi are discussed, and the spatial patterns are interpreted in an ecological context that considers issues such as nutrient availability, vegetation distribution and growth patterns, and microbial colonization. In aquatic systems, focus is on the distribution of planktonic forms including phytoplankton and microzooplankton. *
Knepper, T. P. ed.
The Rhine
The Handbook of Environmental Chemistry Vol.5, Water Pollution, Part 5L
Springer-Verlag 2006.
373 pp. (H)
ISBN 3-540-29393-0
35,000円
Contents
1.Hydrology.- 2.The Recovered Rhine and its History.- 3.The Development of Water Protection Requirements from the Point of View of Waterworks, with Emphasis on 30 Years of the Memorandum of the International Association of Waterworks in the River Rhine Catchment Area (IAWR).- 4.Early warning Strategies and Practices along the River Rhine.- 5.Water Quality of Lake Constance.- 6.MTBE in Lake Zurich.- 7.Trends in Pesticide Transport into the River Rhine.- 8.Pharmaceuticals in the River Rhine.- 9. Analysis, Occurrence, and Fate of Aromatic Sulfonates in the Rhine and Its Tributaries.- 10.Occurrence, Fate and Relevance of Aminopolycarboxylate Chelating Agents in the Rhine Basin, Germany.- 11.Pollutants as Byproducts and Degradation Products of Chemical Syntheses.- 12.Natural and Artificial Radioactivity in the Rhine and its Tributaries.- 13.Assessment of Organic Compounds in the Rhine Estuary/
* The development of the Rhine, its catchment area and hydrology is as well presented as the development of water protection requirements and early warning systems on the Rhine. Additionally the book describes many aspects of water quality from the Rhine but also from alpine lakes, tributaries, estuary and adjacent coastal waters connected with the Rhine. This work provides a great deal of data obtained from the analysis and up-to-date monitoring of organic micro pollutants, such as e.g. pesticides, pharmaceuticals, synthetic aromatic sulfonates, chelating agents, industrial chemicals and by-products from chemical syntheses. *
Hites, R. ed.
Persistent Organic Pollutants in the Great Lakes with Contributions by Numerous Experts
The Handbook of Environmental Chemistry Vol.5 : Water Pollution , Part 5N
Springer-Verlag 2006.
441 pp. (H)
ISBN 3-540-29168-7
42,200円
Contents
1.Overview.- 2.Eisenreich: Polychlorinated Biphenyls.- 3.Polychlorinated Dibenzo-p-dioxins and Dibenzofurans.- 4.Pesticides.- 5.Toxaphene.- 6.Polychlorinated Naphthalenes.- 7. Offenberg: Polycyclic Aromatic Hydrocarbons.- 8.Brominated Flame Retardants.- 9.Perfluorinated Compounds/ *
* The environment around the Laurentian Great Lakes region has been adversely affected by agricultural runoff, urban waste, industrial discharge, landfill leachate, and atmospheric deposition. Although there have been some improvements over the last 20 years, persistent toxic organic pollutants are now a serious problem. This book brings together what is known about the major classes of these pollutants in the Great Lakes. *
Reynolds, J. et al.
Handbook of Chemical and Environmental Engineering Calculations
John Wiley & Sons 2007.2
948 pp. (H)
ISBN 0-470-13902-1
16,700円
Contents
1.Chemical Engineering Fundamentals/ 2.Chemical Engineering Principles/ 3.Air Pollution Control Equipment/ 4.Solid Waste/ 5.Water Quality and Wastewater Treatment/ 6.Pollution Prevention/ 7.Health, Safety, and Accident Management/
* Because of the ubiquitous nature of environmental problems, a variety of scientific disciplines are involved in the development of environmental solutions. The Handbook of Chemical and Environmental Engineering Calculations provides approximately 600 real-world, practical solutions to environmental problems that involve chemical engineering, enabling engineers and applied scientists to meet the professional challenges they face day-to-day. *
Ibanez, J. G. et al.
Environmental Chemistry
Microscale Laboratory Experiments
Springer-Verlag 2007.11
238 pp.(P)
ISBN 0-387-49492-8
7,000円
Contents
1.Experiments/ 2.Water characterization/ 3.Dissolved oxygen in water/ 4.Alkalinity and buffering capacity of water/ 5.Aqueous carbonate equilibria and water corrosiveness/ 6.The point of zero charge of oxides/ 7.Experimental transitions in E vs. pH (or Pourbaix) diagrams/ 8.Air oxidation of metal ions/ 9.Photoassisted reduction of metal complexes/ 10.Anionic detergents and o-phosphates in water/ 11.Halogenated hydrocarbons and the ozone layer depletion/ 12.Acid mine (or acid rock) drainage/ 13.Electrochemical treatment of gas pollutants/ 14.Electrochemical treatment of liquid wastes/ 15.Electrochemical treatment of polluted soils/ 16.Removal of nitric oxide by complex formation/ 17.Photocatalytic remediation of pollutants/ 18.Chemical mineralization of pollutants through the Fenton reaction/ 19.Production and analysis of chloramines/ 20.Production and analysis of chlorine dioxide/ 21.Metal ion recovery by cementation/ 22.Green chemistry: The recovery and reuse of sulfur dioxide/ 23.Microorganisms in soil, water and air/ 24.Toxicity assay using bacterial growth/ 25.Wastewater disinfection/ 26.Appendix I: Answers to selected problems from the experiments/ 27.Appendix II: Analytically-oriented environmental chemistry experiments in the literature/ index/
* Environmental Chemistry: Fundamentals, by Jorge Ibanez et al., is an exceptionally useful and well organized book. After reviewing basic chemical concepts, Environmental Chemistry: Fundamentals quickly progresses to more advanced and contemporary applications including ozone depletion, physiochemical and biological treatment of pollutants, and green chemistry. *
Doble, M. & Kumar, A.
Green Chemistry and Engineering
Academic Press 2007.5
344 pp. (H)
ISBN 0-12-372532-1
11,000円
Contents
CHAPTER 1 Introduction : What is Green Chemistry? and Why Green? What has been happening over the past 60 years in the area of chemistry and chemical technology, with reference to waste, pollution, effluent and other environmental issues, which are caused by chemical manufacturing, will be listed. The advantages of this approach will be outlined Concept of measuring greenness. What is responsible care? CHAPTER 2 Novel Synthetic techniques: Examples of organic reactions which shows innovation in the reduction of raw material/solvent usage, milder operating conditions, generates less wasteful side products etc. CHAPTER 3 Use of catalysts towards Green Chemistry : Examples of reactions that use Heterogeneous or homogeneous catalysts leading to Green scenario. By using these catalyst either the reaction is made milder, efficiency is improved or the amount of side product formed is decreased etc. CHAPTER 4 Biocatalysis and Green chemistry Examples of biotransformations leading to Green scenario.: There are several examples where biocatalysis simplifies the reaction, telescopes multiple steps into one and makes it environmentally clean and friendly. Even reactions which can not be performed with chemical synthesis can be carried out with ease using microbes. CHAPTER 5 New reagents and solvents : Use of new reagents and solvents which are benign, environmentally friendly and do not contribute towards voc. CHAPTER 6 Process and Operation: Process intensification, better hardware design, better unit operation design, better flow sheet etc. It will also cover use of membranes and other novel down stream processing techniques. CHAPTER 7 Energy and Renewable resources : Alternate energy sources discussed. Hydrocarbon fuel is a non-renewable source of energy. Research using alternate energy sources is being pursued seriously in many research labs world over. Also apart from simple heating ultra sound, IR are also being considered as sources for initiating reactions. Use of renewable raw material includes ethanol, biodiesel etc. CHAPTER 8 Inherent safety : Processes that are milder, use less toxic solvents, do not product dangerous intermediate, do not produce recalcitrant waste or side products chemicals etc. are termed as inherently safe. Such a philosophy could prevent another Bhopal. CHAPTER 9 Industrial Examples : Case studies Industrial examples of processes where Green has been implemented or practiced are discussed in this chapter. CHAPTER 10 Future trends : Frontier research. A glimpse into the future will be outlined and the direction the future research will take will be predicted/
* Green Chemistry is the utilization of a set of principles that reduces or eliminate the use or generation of hazardous substances in design. Due to extravagant costs needed to managing these wastes, tens of billions of dollars a year, there is a need to propose a way to create less waste. Emission and treatment standards continue to become more stringent, which causes these costs to continue to escalate. This book describes both the science (theory) and engineering (application) principles of Green Chemistry that lead to the generation of less waste. It explores the use of milder manufacturing conditions resulting from the use of smarter organic synthetic techniques and the maintenance of atom efficiency that can temper the effects of chemical processes. By implementing these techniques means less waste, which will save industry millions of dollars over time. *
80-89 登録日 08.01.31
