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Zero Liquid Discharge Wastewater Treatment System : From Introduction to Application / edited by Javid Ahmad Parray, Wen-Jun Li, A. K. Haghi.
- Format:
- Book
- Series:
- Springer Water, 2364-8198
- Language:
- English
- Subjects (All):
- Water.
- Hydrology.
- Environmental management.
- Pollution.
- Refuse and refuse disposal.
- Environmental chemistry.
- Environmental Management.
- Waste Management/Waste Technology.
- Environmental Chemistry.
- Local Subjects:
- Water.
- Environmental Management.
- Pollution.
- Waste Management/Waste Technology.
- Environmental Chemistry.
- Physical Description:
- 1 online resource (VIII, 214 p. 18 illus., 17 illus. in color.)
- Edition:
- 1st ed. 2025.
- Place of Publication:
- Cham : Springer Nature Switzerland : Imprint: Springer, 2025.
- Summary:
- A Zero Liquid Discharge System (ZLDS) is designed to recover water and solvents from wastewater, resulting in zero waste through dehydration. This book provides a comprehensive guide to the zero-liquid discharge process, highlighting its importance in preventing environmental hazards associated with improper industrial wastewater disposal, such as water and soil pollution. It emphasizes the need for proper disposal methods to protect ecosystems and public health by examining the implications of chemical contaminants in water systems. As industrial pollution increases, the book explores practical approaches to managing industrial residues locally and globally via ZLDS. It reviews the health effects of industrial chemicals and current policy limitations and offers recommendations for effective wastewater management. Additionally, it discusses the financial aspects and operational requirements of ZLDS while highlighting the potential for hazardous dry sludge containing heavy metals. Overall, the book underscores the necessity of careful planning and analysis in implementing ZLDS technology.
- Contents:
- Introduction to zero liquid discharge (ZLD): A Growing Global Concern
- Protection of Water Supplies from Contamination of Industrial Chemical Waste
- Implementing Zero Liquid Discharge Systems to Minimize Industrial Wastewater Residues in Mechanical Manufacturing Processes
- Engineering Research on Integrating Macrophytes, Zooplankton and Machine Learning for Enhanced Wastewater Treatment Applications
- Engineering Research on Integrating Macrophytes, Zooplankton and Machine Learning for Enhanced Wastewater Treatment Applications.-Engineering Research on Integrating Macrophytes, Zooplankton and Machine Learning for Enhanced Wastewater Treatment Applications
- Microbial Community Response to Waste Water Discharge in Water Bodies
- Utility of online instrumentation and supervised machine learning to detect industrial discharge
- Future Directions for IoT and AI-Based Zero Liquid Discharge (ZLD) Systems in Industrial Applications
- Toward Sustainable Zero Liquid Discharge System
- Protection of water supplies from contamination of industrial chemical wastewater disposal of Yavatmal District (MS) India case study
- Strategic Policy Recommendations and Implications for Effective Management in Organizational and Regulatory Frameworks.
- Notes:
- Description based on publisher supplied metadata and other sources.
- ISBN:
- 3-031-84909-4
- OCLC:
- 1513254208
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