Anammox Process
Technological Advancement and Application in Industrial Wastewater Treatment Plant
- 1st Edition - August 16, 2024
- Latest edition
- Editor: Maulin P. Shah
- Language: English
Anammox Process: Technological Advancement and Application in Industrial Wastewater Treatment Plant systematically summarizes studies on the effect of various operational factor… Read more
Anammox Process: Technological Advancement and Application in Industrial Wastewater Treatment Plant systematically summarizes studies on the effect of various operational factors on nitrogen removal performance, along with reactor type, mode of operation (batch or continuous), and cultured anammox bacterial species. The book lists the effect of potential anammox inhibition factors, such as high nitrite concentration, high salinity, sulfides, toxic metal elements, and toxic organic compounds and provides a thorough interpretation of the synergistic and antagonistic toxicity of these inhibitors. In addition, this updated resource suggests a strategy for the optimization of anammox processes for wastewater treatment, also stressing the importance of future studies.
- Presents detailed information on procedures and factors influencing the efficacy of the anammox process
- Offers powerful insights in existing wastewater remediation processes
- Provides a comprehensive understanding of the relationship between operating parameters and environmental factors in WWTPs
Undergraduate and master students and researchers in academia in chemical and environmental science, biotechnology, bioscience, life science, microbiology Researchers in wastewater treatment industries, solid waste treatment industries, pharmaceutical industries, agro-based industries, biotechnological industries, and animal meat processing industries
1. Characterization of the start-up of single and two-stage Anammox processes with real low-strength wastewater treatment
2. Performance of Anammox Processes for Wastewater Treatment
3. Biological nitrogen removal by the anaerobic ammonium oxidation (anammox) process
4. Recent Advances in Anammox Bioreactors for Industrial Wastewater Reuse
5. Applications of anammox process
6. Mainstream application of anammox process
7. Immobilization of anammox biomass
8. Preservations of anammox biomass
9. Strategies for controlling denitritation
10. Effect of operational conditions on anammox bacterial community
11. Autotrophic nitrogen removal technologies
12. Microbiology and application of the anammox process
13. Influence of effluent recirculation on the performance of Anammox process
14. Anammox performance, granulation, and microbial response under COD disturbance
15. Physiological and kinetic characterization of a suspended cell anammox culture
16. Development of long-term stable partial nitrification and subsequent anammox process
17. Future prospects of anammox process
2. Performance of Anammox Processes for Wastewater Treatment
3. Biological nitrogen removal by the anaerobic ammonium oxidation (anammox) process
4. Recent Advances in Anammox Bioreactors for Industrial Wastewater Reuse
5. Applications of anammox process
6. Mainstream application of anammox process
7. Immobilization of anammox biomass
8. Preservations of anammox biomass
9. Strategies for controlling denitritation
10. Effect of operational conditions on anammox bacterial community
11. Autotrophic nitrogen removal technologies
12. Microbiology and application of the anammox process
13. Influence of effluent recirculation on the performance of Anammox process
14. Anammox performance, granulation, and microbial response under COD disturbance
15. Physiological and kinetic characterization of a suspended cell anammox culture
16. Development of long-term stable partial nitrification and subsequent anammox process
17. Future prospects of anammox process
- Edition: 1
- Latest edition
- Published: August 16, 2024
- Language: English
MS
Maulin P. Shah
Dr. Maulin P. Shah is an active researcher and microbial biotechnologist with diverse research interest. His primary interest is the environment, the quality of our living resources and the ways that bacteria can help to manage and degrade toxic wastes and restore environmental health. Consequently, His work has been focused to assess the impact of industrial pollution on microbial diversity of wastewater following cultivation dependant and cultivation independent analysis.
Affiliations and expertise
Environmental Microbiology Consultant, Gujarat, IndiaRead Anammox Process on ScienceDirect