From Biofiltration to Promising Options in Gaseous Fluxes Biotreatment: Recent Developments, New Trends, Advances, and Opportunities provides an overview on the biological tools used for the treatment of the gaseous fluxes, with emphasis on traditional and perspective options, opening new horizons for research and implementation in practice. It is known that air pollution is an emergent global issue and a priority within the international environmental programs. Moreover, technologies based on biological methods are significantly contributing to the sustainable development concept. Thus this book provides tools for solving air pollution issues in a sustainable manner. These issues can be solved at different levels (e.g., "end-of-pipe" gaseous streams, indoor/outdoor air, closed environments), which can be approached by the different biotechniques presented in the book, from classical biofiltration techniques (part 1) to phytotreatment and microalgae-based techniques (part 2). Although all options have their particularities that make them special for certain applications, a special attention is drawn to the potential of the last one, which offers multiple possibilities for biomass valorization. Scientists from worldwide with relevant experience in their field have been contributed to the development of this book.
Current challenges and perspectives in gas fluxes biotreatment
Carmen Gabaldón García, Pau San Valero Tornero, Guillermo Quijano Govantes
págs. 5-27
Biofilters versus bioscrubbers and biotrickling filters: state-of-the-art biological air treatment
Krzysztof Barbusiński, Krzysztof Urbaniec, Damian Kasperczyk, Maciej Thomas
págs. 29-51
págs. 53-69
págs. 71-87
págs. 89-108
págs. 111-127
Biofiltration of volatile organic compounds and polycyclic aromatic hydrocarbons
Alberto Vergara Fernández, Felipe Scott, Patricio Moreno Casas
págs. 129-151
Biogas treatment for H2S, CO2, and other contaminants removal
Roxana Angeles Torres, David Fernando Marín De Jesus, María del Rosario Rodero Raya, Celia Pascual, Armando González Sanchez, Ignacio de Godos, Raquel Lebrero Fernández, Raúl Muñoz Torre
págs. 153-176
págs. 177-192
págs. 197-217
Plant physiological mechanisms of air treatment
Kwang Jin Kim, Charlotte C. Shagol, Fraser R. Torpy, Thomas Pettit, Peter J. Irga
págs. 219-244
Plant–microbe interaction within phytosystems used for air treatment
Peter J. Irga, Charlotte C. Shagol, Kwang Jin Kim, Thomas Pettit, Fraser R. Torpy
págs. 245-262
Technological aspects of the removal of air pollutants by phytosystems
Thomas Pettit, Peter J. Irga, Fraser R. Torpy, Charlotte C. Shagol, Kwang Jin Kim
págs. 263-281
Phytosystems implementation: examples of application in practice
Peter J. Irga, Thomas Pettit, Charlotte C. Shagol, Kwang Jin Kim, Fraser R. Torpy
págs. 283-299
págs. 303-326
págs. 327-344
págs. 345-372
Carbon dioxide capture from carbon dioxide–rich gases by microalgae
Félix Gonzalo Ibrahim, Raúl Muñoz Torre, Bernardo Llamas Moya, Ignacio de Godos
págs. 373-396
A model microalga for addressing air treatment in spacecrafts
Gabriela Soreanu, Igor Cretescu, Mariana Diaconu, Maria Ignat, Valeria Harabagiu, Corneliu Cojocaru, Petrisor Samoila
págs. 397-417
Microalgae for combined air revitalization and biomass production for space applications
Gisela Detrell Domingo, Harald Helisch, Jochen Keppler, Johannes Martin, Norbert Henn
págs. 419-445
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