Industrial waste treatment process engineering

Industrial Waste Treatment Process Engineering includes design principles applicable to municipal systems with significant industrial influents. The information presented in these volumes is basic to conventional treatment procedures, while allowing evaluation and implementation of specialized and emerging treatment technologies. What makes Industrial Waste Treatment Process Engineering unique is the level of process engineering detail. The facility evaluation section includes a step-by-step review of each major and support manufacturing operation, identifying probable contaminant discharges, practical prevention measures, and point source control procedures. This theoretical plant review is followed by procedures to conduct a site specific pollution control program. The unit operation chapters contain all the details needed to complete a treatment process design.

Pollution Prevention EvaluationChapter 1-1 provides process evaluation guidelines to review individual manufacturing operations, identify probable pollution generation sources, and investigate possible corrective measures. Examining this model allows exploring corrective action for raw materials selection, materials storage, feed preparation, manufacturing, product recovery, purification, finishing, packaging, solvent recovery, and support facilities, and suggests data and procedures appropriate for developing site-specific plans to implement pollution prevention, source correction, and waste minimization measures at actual facilities. Study results provide the basis for a complete facility waste management program. Preliminary Central Treatment EvaluationThe guidelines profile an overall waste facility control plan that incorporates waste management practices, segregated treatment systems, central treatment systems and effluent recycling. Central treatment facility development includes sewer segregation, selecting individual and central treatment technologies, equalization and pretreatment. Chapter 1-2 also includes discussion of procedures to verify selected treatment technologies and develop design criteria. Waste Treatment System Process DesignChapter 1-3 develops the resultant data into required waste treatment systems, treating the resulting sewer discharges, segregated waste streams, or both. Process development includes selecting ancillary facilities such as waste storage, chemical storage and feed, spill and emergency discharges, sludge treatment and air emission management, and exploring the limitations imposed by the site's location and physical characteristics. EqualizationChapter 1-4 discusses modulating highly variant industrial waste characteristics to acceptable downstream treatment limits, and relates influent effects on effluent variability and inherent process control to Statistical Quality Control (SQC) principles.

Industrial Waste Treatment Process Engineering is a step-by-step implementation manual in three volumes, detailing the selection and design of industrial liquid and solid waste treatment systems. It consolidates all the process engineering principles required to evaluate a wide range of industrial facilities, starting with pollution prevention and source control and ending with end-of-pipe treatment technologies. Industrial Waste Treatment Process Engineering guides experienced engineers through the various steps of industrial liquid and solid waste treatment. The structure of the text allows a wider application to various levels of experience. By beginning each chapter with a simplified explanation of applicable theory, expanding to practical design discussions, and finishing with system Flowsheets and Case Study detail calculations, readers can "enter or leave" a section according to their specific needs. As a result, this set serves as a primer for students engaged in environmental engineering studies AND a comprehensive single-source reference for experienced engineers. Industrial Waste Treatment Process Engineering includes design principles applicable to municipal systems with significant industrial influents. The information presented in these volumes is basic to conventional treatment procedures, while allowing evaluation and implementation of specialized and emerging treatment technologies. What makes Industrial Waste Treatment Process Engineering unique is the level of process engineering detail. The facility evaluation section includes a step-by-step review of each major and support manufacturing operation, identifying probable contaminant discharges, practical prevention measures, and point source control procedures. This theoretical plant review is followed by procedures to conduct a site specific pollution control program. The unit operation chapters contain all the details needed to complete a treatment process design.

Introduction, II-1. AERATION, Basic Concepts, Aeration Devices, Process Engineering Design, General Engineering Criteria, Case Study Number, References, II-2. AEROBIC BIOLOGICAL OXIDATION, General Biological Concepts, Factors Sustaining a Biological Reaction, Factors Affecting or Inhibiting a Biological Reaction, Process Variables to Control a Biological System, System Performance, Nitrification and Denitrication, Biological Processes, References, II-3. ACTIVATED SLUDGE SYSTEM, Basics Concepts, Activated Sludge Systems, Process Engineering Design, General Engineering Criteria, Case Study Number 10, Case Study Number 11, Case Study Number 12, Case Study Number 13, References, II-4. BIOLOGICAL OXIDATION: LAGOONS, Basic Concepts, Lagoon Process Evaluations, Process Engineering Design, General Engineering Criteria, Case Study Number 14, Case Study Number 15, References, II-5. BIOLOGICAL OXIDATION: FIXED-FILM PROCESSES, Basic Concepts, Fixed Film Systems, Process Engineering Design, General Engineering Criteria, Case Study Number, Case Study Number, References, II-6. AEROBIC DIGESTION, Basic Concepts, Aerobic Treatment Systems, Process Engineering Design, General Engineering Criteria, Case Study Number 18, References, II-7. ANAEROBIC WASTE TREATMENT-ANAEROBIC SLUDGE DIGESTION, Basic Concepts, Anaerobic Treatment Systems, Process Engineering Design, General Engineering Criteria, Case Study Number 19, Case Study Number 20, References, II-8. SEDIMENTATION, Basic Concepts, Clarification and Thickening Systems, Process Engineering Design, General Engineering Criteria, Case Study Number 21, Case Study Number 22, Case Study Number 23, References, Index