By Christian Kennes, Maria C. Veiga
In fresh years, pollution has turn into an enormous all over the world crisis. Air toxins can impact metabolic task, abate fit improvement, and express carcinogenic and poisonous homes in people. during the last 20 years, using microbes to take away pollution from infected air streams has turn into a extensively authorised and effective substitute to the classical actual and chemical therapy applied sciences. pollution Prevention and regulate: Bioreactors and Bioenergy focusses on those biotechnological possible choices either the optimization of bioreactors and the improvement of purifier biofuels.
Structured in 5 elements, the e-book covers:
- Fundamentals and microbiological aspects
- Biofilters, bioscrubbers and different end-of-pipe therapy technologies
- Specific purposes of bioreactors
- Biofuels construction from toxins and renewable assets (including biogas, biohydrogen, biodiesel and bioethanol) and its environmental impacts
- Case reviews of functions together with biotrickling filtration of waste gases, commercial bioscrubbers utilized in several industries and biogas upgrading
pollution Prevention and keep watch over: Bioreactors and Bioenergy is the 1st reference paintings to offer a huge evaluation of bioprocesses for the mitigation of pollution. basically meant for researchers and scholars in environmental engineering, biotechnology and utilized microbiology, the booklet can be of curiosity to commercial and governmental researchers.Content:
Chapter 1 advent to pollution (pages 1–18): Christian Kennes and Maria C. Veiga
Chapter 2 Biodegradation and Bioconversion of unstable toxins (pages 19–30): Christian Kennes, Haris N. Abubackar and Maria C. Veiga
Chapter three identity and Characterization of Microbial groups in Bioreactors (pages 31–56): Luc Malhautier, Lea Cabrol, Sandrine Bayle and Jean?Louis Fanlo
Chapter four Biofilters (pages 57–119): Eldon R. Rene, Maria C. Veiga and Christian Kennes
Chapter five Biotrickling Filters (pages 121–138): Christian Kennes and Maria C. Veiga
Chapter 6 Bioscrubbers (pages 139–153): Pierre Le Cloirec and Philippe Humeau
Chapter 7 Membrane Bioreactors (pages 155–183): Raquel Lebrero, Raul Munoz, Amit Kumar and Herman van Langenhove
Chapter eight Two?Phase Partitioning Bioreactors (pages 185–205): Hala Fam and Andrew J. Daugulis
Chapter nine Rotating organic Contactors (pages 207–220): R. Ravi, okay. Sarayu, S. Sandhya and T. Swaminathan
Chapter 10 leading edge Bioreactors and Two?Stage structures (pages 221–246): Eldon R. Rene, Maria C. Veiga and Christian Kennes
Chapter eleven Bioprocesses for the removing of unstable Sulfur Compounds from gasoline Streams (pages 247–274): Albert Janssen, Pim L. F. van den Bosch, Robert C. van Leerdam and Marco de Graaff
Chapter 12 Bioprocesses for the removing of Nitrogen Oxides (pages 275–291): Yaomin Jin, Lin Guo, Osvaldo D. Frutos, Maria C. Veiga and Christian Kennes
Chapter thirteen Biogas Upgrading (pages 293–318): M. Estefania Lopez, Eldon R. Rene, Maria C. Veiga and Christian Kennes
Chapter 14 Biogas (pages 319–343): Marta Ben, Christian Kennes and Maria C. Veiga
Chapter 15 Biohydrogen (pages 345–381): Bikram okay. Nayak, Soumya Pandit and Debabrata Das
Chapter sixteen Catalytic Biodiesel creation (pages 383–397): Zhenzhong Wen, Xinhai Yu, Shan?Tung Tu and Jinyue Yan
Chapter 17 Microalgal Biodiesel (pages 399–430): Hugo Pereira, Helena M. Amaro, Nadpi G. Katkam, Luisa Barreira, A. Catarina Guedes, Joao Varela and F. Xavier Malcata
Chapter 18 Bioethanol (pages 431–463): Johan W. van Groenestijn, Haris N. Abubackar, Maria C. Veiga and Christian Kennes
Chapter 19 Biotrickling Filtration of Waste Gases from the Viscose (pages 465–484): Andreas Willers, Christian Dressler and Christian Kennes
Chapter 20 Biotrickling Filters for elimination of unstable natural Compounds from Air within the Coating quarter (pages 485–496): Carlos Lafita, F. Javier Alvarez?Hornos, Carmen Gabaldon, Vicente Martinez?Soria and Josep?Manuel Penya?Roja
Chapter 21 commercial Bioscrubbers for the nutrients and Waste Industries (pages 497–511): Pierre Le Cloirec and Philippe Humeau
Chapter 22 Desulfurization of Biogas in Biotrickling Filters (pages 513–523): David Gabriel, Marc A. Deshusses and Xavier Gamisans
Chapter 23 Full?Scale Biogas Upgrading (pages 525–544): Jort Langerak, Robert Lems and Erwin H. M. Dirkse
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Additional info for Air Pollution Prevention and Control: Bioreactors and Bioenergy
Bioconversion of synthesis gas to second generation biofuels: a review. Renewable and Sustainable Energy Reviews, 15:4255–73 (2011). C. Maness, S. C. J. F. Weaver. Characterization of the oxygen tolerance of a hydrogenase linked to a carbon monoxide oxidation pathway in Rubrivivax gelatinosus. Applied and Environmental Microbiology, 68:2633–6 (2002). Y. R. Y. Park, S. Park. Hydrogen production by a new chemoheterotrophic bacterium Citrobacter sp. Y19. International Journal of Hydrogen Energy, 27:601–10 (2002).
P. Barba de la Rosa. Continuous production of endochitinase Ech42 by Pichia pastoris in a biotrickling ﬁlter degrading methanol. In: C. Kennes, Rene ER, Veiga MC, editors. Proceedings of the 4th International Conference on Biotechniques for Air Pollution Control and Bioenergy. La Coru˜na, Spain: Universidade da Coru˜na, pp. 335–41 (2011). D. Dionisi, G. P. Papini, C. M. Majone Carrasco. Olive mill efﬂuents as a feedstock for production of biodegradable polymers. Water Research, 39:2076–84 (2005).
Anaerobic biodegradation of chlorinated aliphatic compounds usually follows successive dechlorination steps, with gradual replacement of a chlorine atom by hydrogen. As an example, anaerobic PCE degradation follows the reductive dechlorination steps shown in the following pathway: tetrachloroethylene → trichloroethylene → cis-1,2-dichloroethylene(+ trans-DCE + 1,1-DCE) → vinyl chloride → ethylene/ethane The anaerobic biodegradation rates decrease stepwise with the removal of chlorine atoms. Vinyl chloride, a strong carcinogen, is often a major end product, although further biodegradation has been observed in a few bacteria such as Dehalococcoides spp.