Hazardous Waste ManagementHazardous Waste Management provides a comprehensive overview of a complex, interdisciplinary field. To prepare the graduate who will be entering the rapidly growing field of hazardous waste management, the book demonstrates how science and engineering disciplines work together to identify and correct threats to human health and the environment. The book's comprehensiveness enables the student to select specialized areas for further study and research. The authors combine the theoretical framework with their diversified real-world experience in international environmental consulting. The chapters include case studies, example problems, and discussion topics and problems. |
From inside the book
Results 1-3 of 61
Page 161
... Zone The foregoing discussions describe flow in the zone below the water table . How do the processes differ in the unsaturated zone ? First , a few terms need to be defined : Water table A surface on which the fluid pressure ( pressure ...
... Zone The foregoing discussions describe flow in the zone below the water table . How do the processes differ in the unsaturated zone ? First , a few terms need to be defined : Water table A surface on which the fluid pressure ( pressure ...
Page 462
... zone is ongoing with the subsurface system moving toward equilibrium conditions . The removal of VOCs from the vadose zone may be modeled as the five - step process illustrated in Fig . 9-7 . Volatile compounds will desorb from the soil ...
... zone is ongoing with the subsurface system moving toward equilibrium conditions . The removal of VOCs from the vadose zone may be modeled as the five - step process illustrated in Fig . 9-7 . Volatile compounds will desorb from the soil ...
Page 482
... zone ( also known as a mass transfer zone ) . As the carbon becomes exhausted ( i.e. , all of the adsorption sites are filled ) , the adsorption zone moves down the column . This is illustrated in Fig . 9-18 where the effluent ...
... zone ( also known as a mass transfer zone ) . As the carbon becomes exhausted ( i.e. , all of the adsorption sites are filled ) , the adsorption zone moves down the column . This is illustrated in Fig . 9-18 where the effluent ...
Contents
The Regulatory Process | 35 |
Process Fundamentals | 81 |
Fate and Transport of Contaminants | 133 |
Copyright | |
18 other sections not shown
Other editions - View all
Hazardous Waste Management Michael D. LaGrega,Phillip L. Buckingham,Jeffrey C. Evans Snippet view - 2001 |
Hazardous Waste Management Michael D. LaGrega,Phillip L. Buckingham,Jeffrey C. Evans Snippet view - 1994 |
Common terms and phrases
acid adsorption aquifer audit bentonite benzene Biodegradation biological bioremediation calculated cancer carbon carcinogens cell chemical chlorine clay coefficient combustion compounds concentration degradation developed diffusion dose effects emissions Engineering environment estimate evaluate example exposure facility factors FIGURE flow flue gas geotextile ground water Hazardous Materials hazardous waste hazardous waste management heat hydraulic conductivity hydraulic head incinerator industrial laboratory landfill layer leachate liner liquid mass membrane metals methods mg/kg mg/L monitoring operating organic oxidation oxygen particles phase pollution potential pressure reaction recycling reduce regulations regulatory release remediation risk assessment sample shown in Fig sludge solubility Solution solvent sorbed sorption specific stabilization steam storage substances subsurface Superfund surface Table tank Technology temperature toluene toxic treatment trichloroethylene types typically U.S. EPA unit vadose zone vapor volatile waste management waste minimization zone