Sewage Treatment Plant and Auxiliary Equipment
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Sewage Treatment Plant and Auxiliary Equipment Course
Introduction:
With the introduction of stricter regulations governing wastewater effluent quality in recent years, there is a growing need to enhance the level of training for individuals involved in wastewater treatment. This course has been specifically developed to offer participants a foundational comprehension of domestic wastewater treatment processes, their operation, and design.
The course combines scientific and engineering principles that are directly applicable to the design and operation of wastewater treatment facilities. While covering a broad range of topics, the course places emphasis on the design aspect of the treatment processes. Participants will gain insights into the scientific principles underlying wastewater treatment, as well as the engineering considerations involved in designing effective treatment systems.
By the end of the course, participants will have a solid understanding of the fundamental concepts and principles of wastewater treatment, equipping them with the knowledge and skills necessary for designing and operating efficient domestic wastewater treatment processes.
Course Objectives:
This training course is designed to provide:
- Have knowledge of the impurities in domestic wastewater, their concentrations and Importance in the treatment.
- Understand the principles and technology of wastewater treatment and able to specify the appropriate technologies for treatment.
- Be familiar with the key design parameters for most of the widely used wastewater treatment unit operations.
- Have knowledge about processes for sludge handling and treatment.
Who Should Attend?
- Managers, operators, and engineers involved in the operation of the domestic wastewater treatment system.
- People work in the government in the field of wastewater treatment.
- People work in the industry in the field of wastewater treatment.
Course Outlines:
Review of wastewater terminology, Characterization of wastewater, Physical characteristics, Chemical characteristics, Biological characteristics, Overview of wastewater
treatment processes, Preliminary treatment, Screening, Comminuting, Grit removal, Primary treatment, Sedimentation, Flotation, Flow equalization, Filtration, Flocculation.
Secondary (Biological ) treatment processes, Bioprocess kinetics, Aerobic versus anaerobic, Aeration and agitation, Suspended versus attached-growth treatment processes, Reactors without recycling versus reactors with recycle, Aerobic treatment processes, Activated sludge, Trickling filters, Rotating biological contactors, sequencing batch reactor, Stabilization bond, Aerated lagoons.
Anaerobic treatment processes, Microbiology, the chemistry of anaerobic processes, Anaerobic reactor systems (sludge digestion, UASB), Nitrification and denitrification, Membrane bioreactor (MBR), Tertiary treatment, Membrane, Adsorption, Ion exchange.
Biological nutrient removal, Nitrogen removal, Phosphorus removal, Disinfection, Chlorination, Ozonation, Ultraviolet irradiation, Design problems, Activated sludge, Trickling filter, Rotating biological contactors, Selection of a suitable treatment process.
Sludge treatment and disposal, Sludge generation and production, Sludge characterization, Sludge thickening, Sludge stabilization, Sludge dewatering, Sludge reuse and disposal, Health problems associated with sludge