J. Olivier, E. A. Flores, K. Pérez, Gerardo Álvarez Angulo, Juan Carlos Espinosa, César Gómez Beltrán, J. R. Canepa
{"title":"Evaluation of the potential of biogas generation, of different organic waste, generated in Tabasco","authors":"J. Olivier, E. A. Flores, K. Pérez, Gerardo Álvarez Angulo, Juan Carlos Espinosa, César Gómez Beltrán, J. R. Canepa","doi":"10.9790/2402-110402108113","DOIUrl":null,"url":null,"abstract":"The use of organic waste, as a basis for obtaining renewable energies, is a booming activity in developed areas of the European Union, and Mexico, in specific, the southeast area where Tabasco belongs, is the source of various substrates that can be exploited. The present objective is to determine the analytical characteristics of different substrates generated in the State of Tabasco, and to determine theoretically its potential in obtaining biogas, thermal and electrical energy. The analytical results, indicate that pork and cow excreta, and the water lily, have the highest SVT content, with 82.82 ± 1.33%, 81.41 ± 1.43% and 81.19 ± 2.52% respectively. The theoretical biogas production was higher in pig substrates (20.21 m 3 d -1 ), chicken (15.73 m 3 d -1 ), dog (11.57 m 3 d -1 ) and lamb (9.25 m 3 d -1 ). In heat capacity, the chicken and pork substrates, present the highest theoretical capacity in substitution of LP gas with 5.02 and 6.45 kg d -1 , respectively. Finally, the theoretical values of electricity generation were presented in the substrate chicken, pork and lamb, with 2,156.71, 2,404.37 and 2,475.91 kW year -1 , respectively. With the present work, demonstrates the potential of various substrates in energy production, both heat, as electric.","PeriodicalId":14546,"journal":{"name":"IOSR Journal of Environmental Science, Toxicology and Food Technology","volume":"95 1","pages":"108-113"},"PeriodicalIF":0.0000,"publicationDate":"2017-05-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"IOSR Journal of Environmental Science, Toxicology and Food Technology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.9790/2402-110402108113","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
The use of organic waste, as a basis for obtaining renewable energies, is a booming activity in developed areas of the European Union, and Mexico, in specific, the southeast area where Tabasco belongs, is the source of various substrates that can be exploited. The present objective is to determine the analytical characteristics of different substrates generated in the State of Tabasco, and to determine theoretically its potential in obtaining biogas, thermal and electrical energy. The analytical results, indicate that pork and cow excreta, and the water lily, have the highest SVT content, with 82.82 ± 1.33%, 81.41 ± 1.43% and 81.19 ± 2.52% respectively. The theoretical biogas production was higher in pig substrates (20.21 m 3 d -1 ), chicken (15.73 m 3 d -1 ), dog (11.57 m 3 d -1 ) and lamb (9.25 m 3 d -1 ). In heat capacity, the chicken and pork substrates, present the highest theoretical capacity in substitution of LP gas with 5.02 and 6.45 kg d -1 , respectively. Finally, the theoretical values of electricity generation were presented in the substrate chicken, pork and lamb, with 2,156.71, 2,404.37 and 2,475.91 kW year -1 , respectively. With the present work, demonstrates the potential of various substrates in energy production, both heat, as electric.
利用有机废物作为获得可再生能源的基础,在欧盟的发达地区是一项蓬勃发展的活动,特别是墨西哥,塔巴斯科所在的东南部地区,是各种可开发基质的来源。目前的目标是确定在塔巴斯科州生产的不同基质的分析特性,并从理论上确定其在获得沼气、热能和电能方面的潜力。结果表明,猪排泄物、牛排泄物和睡莲排泄物中SVT含量最高,分别为82.82±1.33%、81.41±1.43%和81.19±2.52%。猪(20.21 m 3 d -1)、鸡(15.73 m 3 d -1)、狗(11.57 m 3 d -1)和羊肉(9.25 m 3 d -1)的理论沼气产量较高。在热容方面,鸡肉和猪肉基质替代LP气体的理论容量最高,分别为5.02和6.45 kg d -1。最后给出了基质鸡、猪肉和羊肉的发电量理论值,分别为2156.71、2404.37和2475.91 kW -1年。通过目前的工作,展示了各种基材在能源生产中的潜力,包括热能和电能。