Treatment Technologies for Organic Wastewater - IntechOpen
Treatment Technologies for Organic Wastewater 253 The COD, BOD and TOC test could quickly reflect the organic pollution in the wastewater, however, they can't reflect the kinds of organic matter and composition of the water, and therefore cannot reflect the total amount of the same total organic carbon pollution caused by different consequences. 2.
Due to recent technical innovations and cost reductions of the actual membranes, the membrane bioreactor takes attention. In this study, membrane bioreactor experiments for micropollutants in drinking use, wastewater, and surface waters were investigated in detail based on literature investigations, and the feasibility of this method was evaluated.
Association of Polyethylene Glycol Solubility - IntechOpen
Association of Polyethylene Glycol Solubility with Emerging Membrane Technologies, Wastewater Treatment, and Desalination. By Hongbo Du, Subhani Bandara, Laura E. Carson and Raghava R. Kommalapati. Submitted: May 15th 2025 Reviewed: August 7th 2025 Published: October 14th 2025. DOI: 10.5772/intechopen.89060
Advanced water/wastewater treatment techniques including ion exchange separation, filtration separation, and adsorption are essential in the removal of nonbiodegradable toxic wastes from water. In the current study, removal of heavy metal ions from water/wastewater and the use of response surface methodology (RSM) for experimental optimization were examined thoroughly.
Membrane technology in wastewater treatment enhanced
1. Introduction. As a novel separation and purification technology, membrane technology has been widely applied and plays a unique role in a variety of domains, such as oily industrial wastewater treatment (Yue et al., 2025), dyestuff industry (Gholami et al., 2003), seawater (Al-Obaidi et al., 2017) and brackish water (Richards et al., 2014) desalination.
14 Membrane Separation Process in Wastewater Treatment of Food Industry Claudia Muro 1, Francisco Riera 2 and María del Carmen Díaz 1 1Institute Technological of Toluca, 2University of Oviedo, 1México 2Spain 1. Introduction Wastewater derived from food production is highly variable, depending on the specific
Ercan Gürbulak - IntechOpen
Dr. Ercan Gürbulak is a research associate at the Environmental Engineering Department at Gebze Technical University, Turkey. He received his bachelor’s degree in Environmental Engineering at Marmara University, Turkey in 2005. He completed his graduate work (M.Sc., 2008 and Ph.D., 2025) in Gebze Technical University. His research interests are application and designing of hydrothermal
ing wastewater treatment processes. A comprehensive study can help enhance and expand current treatment plant processes for coping with and eliminating this pollutant type. The exact origin of microplastics is diicult to identify because of their fragment nature, small size, and varying sources.
from which plants bio polymer is obtained for waste water
Reducing Polymers In Wastewater Treatment, Wastewater. Reducing polymer usage saves wastewater treatment plants precious time, money and labor. The use of polymer products is needed in wastewater treatment when the traditional iron-based ("ferric") and aluminum-based compounds are used to deal with the core problem of phosphorus reduction.
Ultrasonic Membrane Anaerobic System (UMAS) for Palm Oil Mill. Effluent (POME ) Treatment | InTechOpen, Published on: 2013-02-27. Nanosonic mill Nanosonic Mill is a complete enclosed type bead mill equipped with ultrasonic wave device.
Water Treatment
In terms of technology, hydroelectric power generation technique is the most water efficient technology. This is because used water is returned to the source. Water supply and wastewater treatment systems are energy intensive. About 35% of total energy used by municipalities is used for operation of water and wastewater treatment plants.
While governments and individuals strive to maintain the availability of high-quality water resources, many factors can “change the landscape” of water availability and quality, including drought, climate change, saltwater intrusion, aquifer depletion, population increases, and policy changes. Specialty crop producers, including nursery and greenhouse container operations, rely heavily on
- What is anionic polyacrylamide (Apam)?
- Anionic polyacrylamide (APAM) is its negative charge, which makes it highly effective in a wide range of applications. Anionic polyacrylamide (APAM) is highly water-soluble, which means that it can be easily dissolved in water and other aqueous solutions. This makes it easy to use in various applications, such as in the treatment of wastewater.
- What is polyacrylamide (PAM) used for?
- npj Clean Water 1, Article number: 17 ( 2018 ) Cite this article High molecular weight (10 6 –3 × 10 7 Da) polyacrylamide (PAM) is commonly used as a flocculant in water and wastewater treatment, as a soil conditioner, and as a viscosity modifier and friction reducer in both enhanced oil recovery and high volume hydraulic fracturing.
- What is high molecular weight polyacrylamide (PAM)?
- Provided by the Springer Nature SharedIt content-sharing initiative High molecular weight (106–3 × 107 Da) polyacrylamide (PAM) is commonly used as a flocculant in water and wastewater treatment, as a soil conditioner, and as a viscosity modifier and friction reducer in both enhanced oil recovery and high volume hydraulic fracturing.
- Can polyacrylamide improve hydrocarbon production efficiency?
- npj Materials Sustainability 2, Article number: 15 (2025) Cite this article Polyacrylamide (PAM) and its derivatives play a pivotal role in various facets of hydrocarbon development. Proper application and treatment of PAM have the potential to enhance hydrocarbon production efficiency while mitigating adverse environmental effects.
