Control de emisiones de olores ofensivos en el sector pecuario: una revisión sistemática
Abstract
Offensive odors emissions from livestock farms can cause nuisance and health effects to the persons who live in the area of influence of the facilities. With the purpose to reduce this conflict is necessary that farms implement good practices and technologies which allow them to reduce or eliminate offensive odors. In the present work, a bibliometric analysis was done to identify the trends in the area of offensive odors control in livestock farms. Scopus database was used to do the bibliometric search and VOSviewer © (version 1.6.18) software was used to do a co-occurrence analysis. As a result of the search strategy, 518 documents published between the years 2012 and 2022 were found. The keyword analysis reveals that the main livestock activities are swine, poultry and cattle raising. Further, the most researched technologies to control, mitigate and reduce unpleasant odors are anaerobic digestion, biofiltration, biotrickling, biochar adsorption and advanced oxidation processes. It is worth noting, that research applied in this productive sector indicates that these technologies are effective in reducing odor emissions and odorant substances such as NH3 and H2S.
Keywords
Olores ofensivos, Unidades pecuarias, Biofiltración, Biopercolación, Digestión anaerobia, Biocarbón, Procesos de oxidación avanzada
References
- R. Sansoucy, “A Driving Force for Food Security and Sustainable Development.” Livestock (13–14):4–11. 1997.
- DANE. Departamento Administrativo Nacional de Estadística, Boletín Técnico. Encuesta Nacional Agropecuaria (ENA). 2019.
- ICA. Instituto Colombiano Agropecuario, “Censos Pecuarios Nacional.” Retrieved July 20, 2022 (https://www.ica.gov.co/areas/pecuaria/servicios/epidemiologia-veterinaria/censos-2016/censo-2018). 2022.
- Gerber, Pierre J., H. Steinfeld, B. Henderson, A. Mottet, C. Opio, J. Dijkman, A. Falcucci, and G. Tempio, “Tackling Climate Change through Livestock : A Global Assessment of Emissions and Mitigation Opportunities.” Food and Agriculture Organization of the United Nations (FAO). 2013.
- Burnett, William E. “Determination of Malodors by Gas Chromatographic and Organoleptic Techniques.” Environmental Science & Technology 3(8):744–49. 1969.
- Hanajima, Dai, Kazutaka Kuroda, Koremoto Morishita, Jun Fujita, Koki Maeda, and Riki Morioka. “Key Odor Components Responsible for the Impact on Olfactory Sense during Swine Feces Composting.” Bioresource Technology 101(7):2306–10. doi: 10.1016/j.biortech.2009.11.026. 2010.
- Wang, Yong Chao, Meng Fei Han, Ti Pei Jia, Xu Rui Hu, Huai Qun Zhu, Zhen Tong, Yu Ting Lin, Can Wang, De Zhao Liu, Yong Zhen Peng, Gen Wang, Jie Meng, Zeng Xiu Zhai, Yan Zhang, Ji Guang Deng, and Hsing Cheng Hsi. “Emissions, Measurement, and Control of Odor in Livestock Farms: A Review.” Science of the Total Environment 776. doi: 10.1016/j.scitotenv.2021.145735. 2021.
- Sucker, Kirsten, Ralf Both, Michael Bischoff, Rainer Guski, and Gerhard Winneke. “Odor Frequency and Odor Annoyance. Part I: Assessment of Frequency, Intensity and Hedonic Tone of Environmental Odors in the Field.” International Archives of Occupational and Environmental Health 81(6):671–82. doi: 10.1007/s00420-007-0259-z. 2008.
- Capelli, Laura, Selena Sironi, Renato del Rosso, and Jean Michel Guillot. “Measuring Odours in the Environment vs. Dispersion Modelling: A Review.” Atmospheric Environment 79:731–43. doi: 10.1016/j.atmosenv.2013.07.029. 2013.
- Zarra, Tiziano, Mark Gino Galang, Florencio Ballesteros, Vincenzo Belgiorno, and Vincenzo Naddeo. “Environmental Odour Management by Artificial Neural Network – A Review.” Environment International 133. 2019.
- Majumdar, Dipanjali. “Chapter 4. Air, Noise and Odour Pollution and Control Technologies.” Pp. 61–78 in Environmental Management: Issues and Concerns in Developing Countries, edited by P. Sikdar. New Delhi, India: Capital Publishing Company. 2021.
- Schiffman, Susan S., John M. Walker, Pam Dalton, Tyler S. Lorig, James H. Raymer, Dennis Shusterman, and C. Mike Williams. “Potential Health Effects of Odor from Animal Operations, Wastewater Treatment, and Recycling of Byproducts.” Journal of Agromedicine 7(1):7–81. doi: 10.1300/J096v07n01_02. 2000.
- Piccardo, M. T., M. Geretto, A. Pulliero, and A. Izzotti. “Odor Emissions: A Public Health Concern for Health Risk Perception.” Environmental Research 204. doi: 10.1016/j.envres.2021.112121. 2022.
- Van Harreveld, A. P. “From Odorant Formation to Odour Nuisance: New Definitions for Discussing a Complex Process.” Water Science and Technology 44(9):9–15. doi: 10.2166/wst.2001.0498. 2001.
- Romain, Anne Claude, Jacques Nicolas, Pierre Cobut, Julien Delva, Baudouin Nicks, and François Xavier Philippe. “Continuous Odour Measurement from Fattening Pig Units.” Atmospheric Environment 77:935–42. doi: 10.1016/j.atmosenv.2013.06.030. 2013.
- Mahin, T. D. “Comparison of Different Approaches Used to Regulate Odours around the World.” Water Science and Technology 44(9):87–102. 2001.
- Tyndall, John, and Joe Colletti. “Mitigating Swine Odor with Strategically Designed Shelterbelt Systems: A Review.” Agroforestry Systems 69(1):45–65. doi: 10.1007/s10457-006-9017-6. 2007.
- Nahm, K. H. “Current Pollution and Odor Control Technologies for Poultry Production.” Avian and Polutry Biology Rivews 14(4):151–74. 2003.
- Talaiekhozani, Amirreza, Marzieh Bagheri, Amin Goli, and Mohammad Reza Talaei Khoozani. “An Overview of Principles of Odor Production, Emission, and Control Methods in Wastewater Collection and Treatment Systems.” Journal of Environmental Management 170:186–206. 2016.
- Wysocka, Izabela, Jacek Gębicki, and Jacek Namieśnik. “Technologies for Deodorization of Malodorous Gases.” Environmental Science and Pollution Research 26(10):9409–34. doi: 10.1007/s11356-019-04195-1. 2019.
- Conti, Cecilia, Marcella Guarino, and Jacopo Bacenetti. “Measurements Techniques and Models to Assess Odor Annoyance: A Review.” Environment International 134. doi: 10.1016/j.envint.2019.105261. 2020.
- Kennes, Chistian, and María C. Veiga. “Technologies for the Abatement of Odours and Volatile Organic and Inorganic Compounds.” Chemical Engineering Transactions 23. 2010.
- Barbusinski, Krzysztof, Katarzyna Kalemba, Damian Kasperczyk, Krzysztof Urbaniec, and Violetta Kozik. “Biological Methods for Odor Treatment – A Review.” Journal of Cleaner Production 152:223–41. doi: 10.1016/j.jclepro.2017.03.093. 2017.
- Donthu, Naveen, Satish Kumar, Debmalya Mukherjee, Nitesh Pandey, and Weng Marc Lim. “How to Conduct a Bibliometric Analysis: An Overview and Guidelines.” Journal of Business Research 133:285–96. doi: 10.1016/j.jbusres.2021.04.070. 2021.
- Van Eck, Nees Jan, and Ludo Waltman. 2010. “Software Survey: VOSviewer, a Computer Program for Bibliometric Mapping.” Scientometrics 84(2):523–38. doi: 10.1007/s11192-009-0146-3.
- Hjorth, M., A. M. Nielsen, T. Nyord, M. N. Hansen, P. Nissen, and S. G. Sommer. “Nutrient Value, Odour Emission and Energy Production of Manure as Influenced by Anaerobic Digestion and Separation.” Agronomy for Sustainable Development 29(2):329–38. doi: 10.1051/agro:2008047. 2009.
- Jacobson, Larry D., Jose R. Bicudo, David R. Schmidt, S. Wood-Gay, Richard Gates, and Steven Hoff. 2003. “Air Emissions from Animal Productions Buildings.” ISAH.
- Li, Yebo, Stephen Y. Park, and Jiying Zhu. “Solid-State Anaerobic Digestion for Methane Production from Organic Waste.” Renewable and Sustainable Energy Reviews 15(1):821–26. doi: 10.1016/j.rser.2010.07.042. 2011.
- Bong, Cassendra Phun Chien, Li Yee Lim, Chew Tin Lee, Jiři Jaromir Klemeš, Chin Siong Ho, and Wai Shin Ho. “The Characterisation and Treatment of Food Waste for Improvement of Biogas Production during Anaerobic Digestion – A Review.” Journal of Cleaner Production 172:1545–58. 2018. doi: 10.1016/j.jclepro.2017.10.199.
- Nicolas, Jacques, Gilles Adam, Yolanda Ubeda, and Anne-Claude Romain. “Multi-Method Monitoring of Odour Emission in Agricultural Biogas Facilities.” in Proceedings of the 5th IWA Conference on Odours and Air Emissions. 2013.
- Orzi, V., C. Riva, B. Scaglia, G. D’Imporzano, F. Tambone, and F. Adani. “Anaerobic Digestion Coupled with Digestate Injection Reduced Odour Emissions from Soil during Manure Distribution.” Science of the Total Environment 621:168–76. doi: 10.1016/j.scitotenv.2017.11.249. 2018.
- Orzi, Valentina, Barbara Scaglia, Samuele Lonati, Carlo Riva, Gabriele Boccasile, Giovanni Loris Alborali, and Fabrizio Adani. “The Role of Biological Processes in Reducing Both Odor Impact and Pathogen Content during Mesophilic Anaerobic Digestion.” Science of the Total Environment 526:116–26. doi: 10.1016/j.scitotenv.2015.04.038. 2015.
- Riva, C., V. Orzi, M. Carozzi, M. Acutis, G. Boccasile, S. Lonati, F. Tambone, G. D’Imporzano, and F. Adani. “Short-Term Experiments in Using Digestate Products as Substitutes for Mineral (N) Fertilizer: Agronomic Performance, Odours, and Ammonia Emission Impacts.” Science of the Total Environment 547:206–14. doi: 10.1016/j.scitotenv.2015.12.156. 2016.
- Zilio, M., V. Orzi, M. E. Chiodini, C. Riva, M. Acutis, G. Boccasile, and F. Adani. “Evaluation of Ammonia and Odour Emissions from Animal Slurry and Digestate Storage in the Po Valley (Italy).” Waste Management 103:296–304. doi: 10.1016/j.wasman.2019.12.038. 2020.
- Pain, B. F., T. H. Misselbrook, C. R. Clarkson, and Y. J. Rees. “Odour and Ammonia Emissions Following the Spreading of Anaerobically-Digested Pig Slurry on Grassland.” Biological Wastes 34:259–67. 1990.
- Delhoménie, Marie Caroline, and Michèle Heitz. “Biofiltration of Air: A Review.” Critical Reviews in Biotechnology 25(1–2):53–72. 2005.
- Datta, Indrani, and D. Grant Allen. “Biofilter Technology.” in Biotechnology for Odor and Air Pollution Contro. Berlin: Springer. 2005.
- Mudliar, Sandeep, Balendu Giri, Kiran Padoley, Dewanand Satpute, Rashmi Dixit, Praveena Bhatt, Ram Pandey, Asha Juwarkar, and Atul Vaidya. “Bioreactors for Treatment of VOCs and Odours - A Review.” Journal of Environmental Management 91:1039–54. doi: 10.1016/j.jenvman.2010.01.006. 2010.
- Hansen, Michael J., Dezhao Liu, Lise Bonne Guldberg, and Anders Feilberg. “Application of Proton-Transfer-Reaction Mass Spectrometry to the Assessment of Odorant Removal in a Biological Air Cleaner for Pig Production.” Journal of Agricultural and Food Chemistry 60:2599–2606. doi: 10.1021/jf300182c. 2012.
- Melse, Roland W., and Johanna M. G. Hol. “Biofiltration of Exhaust Air from Animal Houses: Evaluation of Removal Efficiencies and Practical Experiences with Biobeds at Three Field Sites.” Biosystems Engineering 159:59–69. doi: 10.1016/j.biosystemseng.2017.04.007. 2017.
- Ho, Kuo Ling, Ying Chien Chung, Yueh Hsien Lin, and Ching Ping Tseng. “Microbial Populations Analysis and Field Application of Biofilter for the Removal of Volatile-Sulfur Compounds from Swine Wastewater Treatment System.” Journal of Hazardous Materials 152:580–88. doi: 10.1016/j.jhazmat.2007.07.021. 2008.
- Sheridan, B. A., T. P. Curran, and V. A. Dodd. “Assessment of the Influence of Media Particle Size on the Biofiltration of Odorous Exhaust Ventilation Air from a Piggery Facility.” Bioresource Technology 84:129–43. 2002.
- Hansen, Michael J., Claus L. Pedersen, Louise H. Søgaard Jensen, Lise B. Guldberg, Anders Feilberg, and Lars P. Nielsen. “Removal of Hydrogen Sulphide from Pig House Using Biofilter with Fungi.” Biosystems Engineering 167:32–39. doi: 10.1016/j.biosystemseng.2017.12.004. 2018.
- Bu, Hao, Gilda Carvalho, Zhiguo Yuan, Philip Bond, and Guangming Jiang. “Biotrickling Filter for the Removal of Volatile Sulfur Compounds from Sewers: A Review.” Chemosphere 277. doi: 10.1016/j.chemosphere.2021.130333. 2021.
- Rybarczyk, Piotr, Bartosz Szulczyński, Jacek Gębicki, and Jan Hupka. “Treatment of Malodorous Air in Biotrickling Filters: A Review.” Biochemical Engineering Journal 141:146–62. doi: 10.1016/j.bej.2018.10.014. 2019.
- Gospodarek, Milena, Piotr Rybarczyk, Bartosz Szulczyński, and Jacek Gȩbicki. “Comparative Evaluation of Selected Biological Methods for the Removal of Hydrophilic and Hydrophobic Odorous VOCs from Air.” Processes 7. doi: 10.3390/pr7040187. 2019.
- Van der Heyden, Caroline, Thijs de Mulder, Eveline Volcke, Peter Demeyer, Marc Heyndrickx, and Geertur Rasschaert. “Long-Term Microbial Community Dynamics at Two Full-Scale Biotrickling Filters Treating Pig House Exhaust Air.” Microbial Biotechnology 12(4):775–86. doi: 10.2166/wst.2001.0498. 2019.
- Deng, Longhua, Jiaxin Xu, Yuxin Li, Shangquan Wu, Kecheng Yi, Ruizhi Dai, Songgui He, and Yanbin Xu. “Deodorization of the Off-Gas from Livestock Manure Aerobic Composting Tank Using Biotrickling Filters and Its Mechanism.” Biochemical Engineering Journal 181. doi: 10.1016/j.bej.2022.108409. 2022.
- Basu, P. Biomass Gasification and Pyrolysis Practical Design and Theory. 2010.
- Sakhiya, Anil Kumar, Abhijeet Anand, and Priyanka Kaushal. “Production, Activation, and Applications of Biochar in Recent Times.” Biochar 2:253–85. doi: 10.1007/s42773-020-00047-1. 2020.
- Gwenzi, Willis, Nhamo Chaukura, Terrence Wenga, and Munyaradzi Mtisi. “Biochars as Media for Air Pollution Control Systems: Contaminant Removal, Applications and Future Research Directions.” Science of the Total Environment 753. doi: 10.1016/j.scitotenv.2020.142249. 2021.
- Iwuozor, Kingsley O., Ebuka Chizitere Emenike, Joshua O. Ighalo, Fredrick O. Omoarukhe, Patrick E. Omuku, and Adewale George Adeniyi. “A Review on the Thermochemical Conversion of Sugarcane Bagasse into Biochar.” Cleaner Materials 6. doi: 10.1016/j.clema.2022.100162. 2022.
- Rama Chandraiah, M. “Facile Synthesis of Zero Valent Iron Magnetic Biochar Composites for Pb(II) Removal from the Aqueous Medium.” Alexandria Engineering Journal 55:619–25. doi: 10.1016/j.aej.2015.12.015. 2016.
- Wu, Qianlan, Yang Xian, Zilin He, Qi Zhang, Jun Wu, Gang Yang, Xiaohong Zhang, Hui Qi, Jing Ma, Yinlong Xiao, and Lulu Long. “Adsorption Characteristics of Pb(II) Using Biochar Derived from Spent Mushroom Substrate.” Scientific Reports 9(1). doi: 10.1038/S41598-019-52554-2. 2019.
- Kumar, Aman, Ekta Singh, Rahul Mishra, and Sunil Kumar. “Biochar as Environmental Armour and Its Diverse Role towards Protecting Soil, Water and Air.” Science of the Total Environment 806. doi: 10.1016/j.scitotenv.2021.150444. 2022.
- Sobol, Lukasz, and Arkadiusz Dyjakon. “Biochar as a Sustainable Product for the Removal of Odor Emissions - Mini Literature Review.” Revista de Chimie 73(4):86–96. doi: 10.37358/RC.22.4.8557. 2022.
- Dougherty, Brian, Myles Gray, Mark G. Johnson, and Markus Kleber. “Can Biochar Covers Reduce Emissions from Manure Lagoons While Capturing Nutrients?” Journal of Environmental Quality 46:659–66. doi: 10.2134/jeq2016.12.0478. 2017.
- Maurer, Devin L., Jacek A. Koziel, Kajetan Kalus, Daniel S. Andersen, and Sebastian Opalinski. “Pilot-Scale Testing of Non-Activated Biochar for Swine Manure Treatment and Mitigation of Ammonia, Hydrogen Sulfide, Odorous Volatile Organic Compounds (VOCs), and Greenhouse Gas Emissions.” Sustainability 9. doi: 10.3390/su9060929. 2017.
- Steiner, Christoph, K. C. Das, Nathan Melear, and Donald Lakly. “Reducing Nitrogen Loss during Poultry Litter Composting Using Biochar.” Journal of Environmental Quality 39:1236–42. doi: 10.2134/jeq2009.0337. 2010.
- Chen, Wei, Xindi Liao, Yinbao Wu, Juan Boo Liang, Jiandui Mi, Jinjie Huang, Heng Zhang, Yu Wu, Zhifen Qiao, Xi Li, and Yan Wang. “Effects of Different Types of Biochar on Methane and Ammonia Mitigation during Layer Manure Composting.” Waste Management 61:506–15. doi: 10.1016/j.wasman.2017.01.014. 2017.
- Monge, Sarai Bes, Adrian M. T. Silva, and Christophe Bengoa. Manual Técnico Sobre de Oxidación Aplicados al tratamiento de Aguas Industriales. España. 2018.
- Lee, Myeongseong, Jacek A. Koziel, Wyatt Murphy, William S. Jenks, Baitong Chen, Peiyang Li, and Chumki Banik. “Mitigation of Odor and Gaseous Emissions from Swine Barn with UV-A and UV-C Photocatalysis.” Atmosphere 12(5). doi: 10.3390/atmos12050585. 2021.
- He, Fei, Woojung Jeon, and Wonyong Choi. “Photocatalytic Air Purification Mimicking the Self-Cleaning Process of the Atmosphere.” Nature Communications 12. doi: 10.1038/s41467-021-22839-0. 2021.
- Weon, Seunghyun, Fei He, and Wonyong Choi. 2019. “Status and Challenges in Photocatalytic Nanotechnology for Cleaning Air Polluted with Volatile Organic Compounds: Visible Light Utilization and Catalyst Deactivation.” Environmental Science: Nano 6:3185–3214. doi: 10.1039/c9en00891h.
- Lee, Myeongseong, Jacek A. Koziel, Wyatt Murphy, William S. Jenks, Baitong Chen, Peiyang Li, and Chumki Banik. “Evaluation of TiO2 Based Photocatalytic Treatment of Odor and Gaseous Emissions from Swine Manure with UV-A and UV-C.” Animals 11. doi: 10.3390/ani11051289. 2021.
- Yao, Hongqing, Michael J. Hansen, and Anders Feilberg. “DMS Removal in a Bubble Reactor by Using Peroxone (O3/H2O2) Reactions.” Chemical Engineering Transactions 40:229–34. doi: 10.3303/CET1440039. 2014.
- Kočí, Kamila, Martin Reli, Ivana Troppová, Tomáš Prostějovský, and Radim Žebrák. “Degradation of Ammonia from Gas Stream by Advanced Oxidation Processes.” Https://Doi.Org/10.1080/10934529.2019.1705105 55(4):433–37. doi: 10.1080/10934529.2019.1705105. 2019.
- Meusinger, Carl, Anders B. Bluhme, Jonas L. Ingemar, Anders Feilberg, Sigurd Christiansen, Christina Andersen, and Matthew S. Johnson. “Treatment of Reduced Sulphur Compounds and SO2 by Gas Phase Advanced Oxidation.” Chemical Engineering Journal 307:427–34. doi: 10.1016/J.CEJ.2016.08.092. 2017.
- Andersen, Kristin Barkve, Jon Are Beukes, and Anders Feilberg. “Non-Thermal Plasma for Odour Reduction from Pig Houses - A Pilot Scale Investigation.” Chemical Engineering Journal 223:638–46. doi: 10.1016/j.cej.2013.02.106. 2013.