R. L. Is′emin, A. Melezhyk, S. Kuzmin, A. Nebyvayev, N. Muratova, A. Mikhalev, O. Milovanov, Yu. A. Teplitskii, É. Buchilko, E. Pitsukha, A. Grebenkov, M. Brulé, F. Tabet
{"title":"以鸡粪为唯一原料湿法焙烧所得生物炭与木屑混合在过热蒸汽流化床中生产活性炭","authors":"R. L. Is′emin, A. Melezhyk, S. Kuzmin, A. Nebyvayev, N. Muratova, A. Mikhalev, O. Milovanov, Yu. A. Teplitskii, É. Buchilko, E. Pitsukha, A. Grebenkov, M. Brulé, F. Tabet","doi":"10.3303/CET2186254","DOIUrl":null,"url":null,"abstract":"The process of wet torrefaction (WT) in a fluidized bed powered by superheated steam is applied to produce biochar, which can be subsequently processed into activated carbon, as an interesting bioproduct with high specific surface area. In this study, WT process was carried out at a temperature of 300-350 °C using mixtures of chicken manure and pine sawdust. Both the composition of the initial biomass, and the temperature of WT process had a considerable effect on the contents of non-condensable gaseous torrefaction products. Increasing the proportion of chicken manure in the mixture increased processing time from 30 to 46 minutes. Hence, in this work, it is hypothesized that two processes may have taken place concomitantly in the reactor: wet torrefaction of chicken manure and wet gasification of sawdust. Biochar obtained after WT of chicken manure as sole feedstock, and in mixture with sawdust was further activated using potassium hydroxide at a temperature of 750 °C. The activated carbon had following characteristics: specific pore surface area according to BET: 2031-3392 m2/g, and specific volume of pores with a size of less than 2 nm (micropores): 0.592-0.841 cm3/g. Furthermore, the quality of activated carbon in terms of porosity decreased with higher shares of sawdust in the mixture.","PeriodicalId":9695,"journal":{"name":"Chemical engineering transactions","volume":"24 1","pages":"1519-1524"},"PeriodicalIF":0.0000,"publicationDate":"2021-06-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"5","resultStr":"{\"title\":\"Production of Activated Carbon from Biochar Obtained by Wet Torrefaction of Chicken Manure as Sole Feedstock, and in Mixture with Sawdust in a Fluidized Bed Powered with Superheated Steam\",\"authors\":\"R. L. Is′emin, A. Melezhyk, S. Kuzmin, A. Nebyvayev, N. Muratova, A. Mikhalev, O. Milovanov, Yu. A. Teplitskii, É. Buchilko, E. Pitsukha, A. Grebenkov, M. Brulé, F. Tabet\",\"doi\":\"10.3303/CET2186254\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The process of wet torrefaction (WT) in a fluidized bed powered by superheated steam is applied to produce biochar, which can be subsequently processed into activated carbon, as an interesting bioproduct with high specific surface area. In this study, WT process was carried out at a temperature of 300-350 °C using mixtures of chicken manure and pine sawdust. Both the composition of the initial biomass, and the temperature of WT process had a considerable effect on the contents of non-condensable gaseous torrefaction products. Increasing the proportion of chicken manure in the mixture increased processing time from 30 to 46 minutes. Hence, in this work, it is hypothesized that two processes may have taken place concomitantly in the reactor: wet torrefaction of chicken manure and wet gasification of sawdust. Biochar obtained after WT of chicken manure as sole feedstock, and in mixture with sawdust was further activated using potassium hydroxide at a temperature of 750 °C. The activated carbon had following characteristics: specific pore surface area according to BET: 2031-3392 m2/g, and specific volume of pores with a size of less than 2 nm (micropores): 0.592-0.841 cm3/g. Furthermore, the quality of activated carbon in terms of porosity decreased with higher shares of sawdust in the mixture.\",\"PeriodicalId\":9695,\"journal\":{\"name\":\"Chemical engineering transactions\",\"volume\":\"24 1\",\"pages\":\"1519-1524\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2021-06-15\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"5\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Chemical engineering transactions\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.3303/CET2186254\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q3\",\"JCRName\":\"Chemical Engineering\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Chemical engineering transactions","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.3303/CET2186254","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"Chemical Engineering","Score":null,"Total":0}
Production of Activated Carbon from Biochar Obtained by Wet Torrefaction of Chicken Manure as Sole Feedstock, and in Mixture with Sawdust in a Fluidized Bed Powered with Superheated Steam
The process of wet torrefaction (WT) in a fluidized bed powered by superheated steam is applied to produce biochar, which can be subsequently processed into activated carbon, as an interesting bioproduct with high specific surface area. In this study, WT process was carried out at a temperature of 300-350 °C using mixtures of chicken manure and pine sawdust. Both the composition of the initial biomass, and the temperature of WT process had a considerable effect on the contents of non-condensable gaseous torrefaction products. Increasing the proportion of chicken manure in the mixture increased processing time from 30 to 46 minutes. Hence, in this work, it is hypothesized that two processes may have taken place concomitantly in the reactor: wet torrefaction of chicken manure and wet gasification of sawdust. Biochar obtained after WT of chicken manure as sole feedstock, and in mixture with sawdust was further activated using potassium hydroxide at a temperature of 750 °C. The activated carbon had following characteristics: specific pore surface area according to BET: 2031-3392 m2/g, and specific volume of pores with a size of less than 2 nm (micropores): 0.592-0.841 cm3/g. Furthermore, the quality of activated carbon in terms of porosity decreased with higher shares of sawdust in the mixture.
期刊介绍:
Chemical Engineering Transactions (CET) aims to be a leading international journal for publication of original research and review articles in chemical, process, and environmental engineering. CET begin in 2002 as a vehicle for publication of high-quality papers in chemical engineering, connected with leading international conferences. In 2014, CET opened a new era as an internationally-recognised journal. Articles containing original research results, covering any aspect from molecular phenomena through to industrial case studies and design, with a strong influence of chemical engineering methodologies and ethos are particularly welcome. We encourage state-of-the-art contributions relating to the future of industrial processing, sustainable design, as well as transdisciplinary research that goes beyond the conventional bounds of chemical engineering. Short reviews on hot topics, emerging technologies, and other areas of high interest should highlight unsolved challenges and provide clear directions for future research. The journal publishes periodically with approximately 6 volumes per year. Core topic areas: -Batch processing- Biotechnology- Circular economy and integration- Environmental engineering- Fluid flow and fluid mechanics- Green materials and processing- Heat and mass transfer- Innovation engineering- Life cycle analysis and optimisation- Modelling and simulation- Operations and supply chain management- Particle technology- Process dynamics, flexibility, and control- Process integration and design- Process intensification and optimisation- Process safety- Product development- Reaction engineering- Renewable energy- Separation processes- Smart industry, city, and agriculture- Sustainability- Systems engineering- Thermodynamic- Waste minimisation, processing and management- Water and wastewater engineering
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