Relevant bibliographies by topics / Biomas energy industries

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Biomas energy industries'

Author: Grafiati
Published: 4 June 2021
Last updated: 9 February 2022

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Journal articles on the topic "Biomas energy industries"

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Ratho, Bhuvnesh. "Biomass Extraction of Energy Transformation." Journal of Advanced Research in Power Electronics and Power Systems 07, no. 1&2 (2020): 1–6. http://dx.doi.org/10.24321/2456.1401.202001.

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The focus of this is to make available clean energy, where there is a need for electricity production or energy infrastructure. An anaerobic digester contains an oxygen free environment that allows microorganisms to break down the organic material to harvest biogas (methane). Once the biogas is formed it can be used for different applications to aid the developing world. There are already millions of biogas plants in operation throughout the world. In Germany and other industrialized countries, power generation is the main purpose of biogas plants; conversion of biogas to electricity has becom
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Istadi, Istadi, Nani Harihastuti, Hadiyanto Hadiyanto, et al. "Implementasi dan Pendampingan Pemberdayaan Masyarakat Industri Kecil Menengah Tahu Dalam Perbaikan Pemanfaatan Limbah Tahu untuk Produksi Biogas." Teknik 37, no. 2 (2016): 88. http://dx.doi.org/10.14710/teknik.v37i2.13183.

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Penelitian penerapan teknologi tepat guna ini berfokus kepada aspek implementasi dan pendampingan teknologi, pemberdayaan industri kecil menengah tahu, dan peningkatan penghematan energi mandiri. Tujuan dari artikel ini adalah: (1) mengkaji aspek teknis pendampingan pada implementasi teknologi tepat guna pengolahan limbah cair industri tahu menjadi biogas dan pemurniannya sebagai sumber energi; (2) peningkatan kapasitas dan pemberdayaan industri kecil menengah tahu; dan (3) peningkatan penghematan energi mandiri dari hasil implementasi teknologi. Objek implementasi teknologi adalah biogas hasi
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Ostadi, Mohammad, Kristofer Gunnar Paso, Sandra Rodriguez-Fabia, Lars Erik Øi, Flavio Manenti, and Magne Hillestad. "Process Integration of Green Hydrogen: Decarbonization of Chemical Industries." Energies 13, no. 18 (2020): 4859. http://dx.doi.org/10.3390/en13184859.

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Integrated water electrolysis is a core principle of new process configurations for decarbonized heavy industries. Water electrolysis generates H2 and O2 and involves an exchange of thermal energy. In this manuscript, we investigate specific traditional heavy industrial processes that have previously been performed in nitrogen-rich air environments. We show that the individual process streams may be holistically integrated to establish new decarbonized industrial processes. In new process configurations, CO2 capture is facilitated by avoiding inert gases in reactant streams. The primary energy
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Vanghele, Nicoleta Alexandra, Andreea Matache, Mariana Mădălina Stanciu, and Dumitru Bogdan Mihalache. "Revaluation of bamboo as biomass." E3S Web of Conferences 286 (2021): 02001. http://dx.doi.org/10.1051/e3sconf/202128602001.

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Bamboo is a grassy plant that grows rapidly, is also a renewable natural resource and with a high yield. There are many applications and uses of bamboo, which led to its planting around the world. Among the industries in which bamboo has by now experienced extensive exploitation, we can remember the textile, construction, furniture ; even food, pharmaceutical or cosmetic industries. Biomass is the plant material that is used as a renewable energy resource. This is achieved others by cultivating plants specially used for energy production or by using resistors from small industrial sectors. The
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Nya, Joe Jacob. "Promotion of Renewable Energy Technologies in Sub-Sahara Africa via Biomass Energy Technology." International Letters of Natural Sciences 20 (July 2014): 1–16. http://dx.doi.org/10.18052/www.scipress.com/ilns.20.1.

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There are various biomass energy technologies with imbalanced application status spread all over Sub-Sahara Africa. Currently, some biomass technologies have been developed maturely in the market such as biogas, that can be economically competitive, commercially developed, and applied in large scale, while other technologies are in the early stage of commercial applications, that need subsidies and other financial incentives to encourage them in the market. These include biomass power, biomass pallet fuel, biofuels from non-grain feedstock, etc. There are also many emerging biomass technologie
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Prade, Thomas, Sven-Erik Svensson, Allan Andersson, and Jan Erik Mattsson. "Biomass and energy yield of industrial hemp grown for biogas and solid fuel." Biomass and Bioenergy 35, no. 7 (2011): 3040–49. http://dx.doi.org/10.1016/j.biombioe.2011.04.006.

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Kulichkova, Ganna I., Tetiana S. Ivanova, Mihael Köttner, et al. "Plant Feedstocks and their Biogas Production Potentials." Open Agriculture Journal 14, no. 1 (2020): 219–34. http://dx.doi.org/10.2174/1874331502014010219.

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Introduction: Nowadays, organic waste utilization and replacement of fossil energy sources with their renewable alternatives pose a challenging problem both for industrially developed and developing countries. Anaerobic digestion of organic biomass into biogas is considered an efficient technology for bioenergy production. Over the period from 2009 to 2018, the global biogas production capacities have more than doubled and are continuing to grow. The composition and the amount of biogas depend strongly on the type of the substrate. Various types of feedstock can be used for the production of b
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Stadnik, Mykola, Andrii Shtuts, and Oleksandr Pylypenko. "LEVEL OF ENERGY SUPPLY OF ANIMAL FARMS FROM USING BIOGAS." ENGINEERING, ENERGY, TRANSPORT AIC, no. 1(112) (March 23, 2021): 100–112. http://dx.doi.org/10.37128/2520-6168-2021-1-12.

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Ukraine has untapped potential for the production of own energy from renewable sources - processing of livestock waste (animal manure and bird droppings) with the formation of biogas, which can then be used to produce electricity, heat or fuel - analogues of natural gas (methane) (in particular, for own needs of farms). Currently in Ukraine, the generation of large amounts of waste on industrial farms is an environmental problem that needs to be addressed. Recycling livestock waste to generate biogas will partially solve environmental problems, as well as benefit from decentralized renewable e
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Bungay, Henry R. "Commercialization of Biomass Conversion." Energy Exploration & Exploitation 6, no. 1 (1988): 61–69. http://dx.doi.org/10.1177/014459878800600105.

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Biomass for fuels and chemicals remains a potentially viable option and opportunities for commercialization should be pursued. In the US, apart from the possible use of agricultural wastes, energy plantations of hybrid poplar could produce biomass yields of exploitable proportions. The technologies and economics of biomass refining indicate that co-product credits are essential for commercial propositions. There are many processes using either enzymatic or acid hydrolysis for the conversion of wood cellulose with subsequent fermentation of the sugars to alcohol. There is also the possibility o
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Qin, Ling, Mengjun Wang, Jinfu Zhu, Yuhu Wei, Xintao Zhou, and Zheng He. "Towards Circular Economy through Waste to Biomass Energy in Madagascar." Complexity 2021 (June 7, 2021): 1–10. http://dx.doi.org/10.1155/2021/5822568.

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Biomass energy, contributing to about 80% of the total energy supply, is considered an important energy source in Madagascar. Although around 80% of energy use comes from biomass energy, the current application method of biomass in Madagascar is still in the earliest stage, which is not safe and sustainable. This is because the main form of biomass energy used in Madagascar is still solid charcoal and wood, and the technology is limited. Thus, it is necessary to search for better ways to utilize biomass energy in Madagascar because of high prices of traditional energy carriers and massive envi
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Dissertations / Theses on the topic "Biomas energy industries"

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Savazzi, Éder Renato [UNESP]. "Sustentabilidade e otimização energética de uma planta industrial utilizando a tecnologia de regeneração." Universidade Estadual Paulista (UNESP), 2017. http://hdl.handle.net/11449/151687.

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Submitted by EDER RENATO SAVAZZI null (edersavazzi@hotmail.com) on 2017-09-21T18:11:30Z No. of bitstreams: 1 SAVAZZI, E. R. Sustentabilidade e Otimização Energética de uma planta industrial .pdf: 10486715 bytes, checksum: c5f7f12a7e3167bc3b4a4449aacfcfa3 (MD5)<br>Approved for entry into archive by LUIZA DE MENEZES ROMANETTO (luizamenezes@reitoria.unesp.br) on 2017-09-26T17:54:15Z (GMT) No. of bitstreams: 1 savazzi_er_me_guara.pdf: 10486715 bytes, checksum: c5f7f12a7e3167bc3b4a4449aacfcfa3 (MD5)<br>Made available in DSpace on 2017-09-26T17:54:15Z (GMT). No. of bitstreams: 1 savazzi_e
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Sukumaran, Sujith Gue Kevin R. "A decision support system for biorefinery location and logistics." Auburn, Ala, 2009. http://hdl.handle.net/10415/1699.

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Mathias, Rodrigo Escada [UNESP]. "Redução do consumo de energia fóssil na geração de vapor utilizado em restaurante industrial de empresa automotiva." Universidade Estadual Paulista (UNESP), 2016. http://hdl.handle.net/11449/144534.

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Submitted by RODRIGO ESCADA MATHIAS null (rodrigo.escada.mathias@gmail.com) on 2016-10-31T18:16:18Z No. of bitstreams: 1 DISSERTAÇÃO_MESTRADO_RODRIGO_MATHIAS_Revisão_Final.pdf: 1664343 bytes, checksum: cab844e66361d8607aa397acbedcf0c1 (MD5)<br>Approved for entry into archive by Felipe Augusto Arakaki (arakaki@reitoria.unesp.br) on 2016-11-07T19:55:46Z (GMT) No. of bitstreams: 1 mathias_re_me_guara.pdf: 1662746 bytes, checksum: 954b916c500d16709c82f21f90f55277 (MD5)<br>Made available in DSpace on 2016-11-07T19:55:46Z (GMT). No. of bitstreams: 1 mathias_re_me_guara.pdf: 1662746 bytes, checks
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Chan, Jin Hooi. "Evolution of biofuel value chain governance and government policy : the cases of China, Thailand, the Philippines and Vietnam." Thesis, University of Cambridge, 2012. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.610635.

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Misi, Shepherd Nimrod. "An aerobic co-digestion of agro-industrial wastes for optimum biogas production." Thesis, University of Birmingham, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.369741.

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Bharathidasan, Ashok Kumar. "Production of Biobutanol from inulin-rich biomass and industrial food processing wastes." The Ohio State University, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=osu1357318665.

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Silva, Adriana Ribeiro da. "VIABILIDADE ECONÔMICA DA GERAÇÃO DE ENERGIA ELÉTRICA A PARTIR DO BIOGÁS GERADO EM ESTAÇÃO DE TRATAMENTO DE EFLUENTE INDUSTRIAL DE CERVEJARIAS." Universidade Federal do Maranhão, 2014. http://tedebc.ufma.br:8080/jspui/handle/tede/677.

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Made available in DSpace on 2016-08-18T17:23:40Z (GMT). No. of bitstreams: 1 DISSERTACAO_ADRIANA RIBEIRO DA SILVA.pdf: 1163830 bytes, checksum: c403597f947d78945683fa34afa48d7d (MD5) Previous issue date: 2014-11-03<br>Several industrial wastewater treatment plants using biogas from anaerobic processes in plants as a source of fuel for generators of electricity. This biogas comprises mainly methane which results from the digestion of organic matter in bioreactors. Biogas as alternative energy source, can be a viable solution for two major global problems that comes with population growth: i
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Singh, Brajesh Bailey Conner. "Coal and renewable energy history, impacts, and future in Alabama /." Auburn, Ala., 2010. http://hdl.handle.net/10415/2041.

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Horst, Diogo José. "Avaliação da produção energética a partir de ligninas contidas em biomassas." Universidade Tecnológica Federal do Paraná, 2013. http://repositorio.utfpr.edu.br/jspui/handle/1/1482.

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CAPES<br>O objetivo geral deste estudo foi avaliar o potencial de produ;áo energética de ligninas extraídas de subprodutos de diversas culturas agricolas brasileiras, dentre elas: bagaço de cana de açúcar, serragem de madeira, palha de milho, palha de trigo, folhas de capim elefante e casca de arroz. Para isto, foram realizadas caracterizações físico-químicas, dentre elas: análise elementar, análise imediata, determinação do poder calorífico superior, granulometria, e determinação da composição de holocelulose, lignina e extrativos das amostras. A pesquisa foi dividida em três etapas: amostrag
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Iannicelli, André Luiz. "Reaproveitamento energético do biogás de uma indústria cervejeira." Universidade de Taubaté, 2008. http://www.bdtd.unitau.br/tedesimplificado/tde_busca/arquivo.php?codArquivo=352.

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O homem ao promover o desenvolvimento industrial e tecnológico, tem contribuído para a degradação ambiental. Hoje a sociedade está diante do maior desafio das últimas décadas, pois, para dar prosseguimento a esse modelo de desenvolvimento, haverá aumento no consumo de energia, que é altamente poluente, e cujas fontes estão prestes ao esgotamento. A racionalização do uso das energias convencionais e a utilização de energias não poluentes podem representar o caminho a ser seguido, porém a substituição de parcela relevante dessa energia demanda muita pesquisa e tempo. Este trabalho apresenta uma
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Books on the topic "Biomas energy industries"

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Angrist, Misha, Teresa L. Hayes, and Rebecca L. Friedman. Biomass energy. Freedonia Group, 2001.

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Rommelse, Ralph. The impact of improved fallows and biomass transfer on household poverty indicators in western Kenya: Methodology and empirical results from baseline survey. International Centre for Research in Agroforestry, 2001.

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Rosillo-Calle, Frank, Sergio V. Bajay, and Harry Rothman. INDUSTRIAL USES OF BIOMASS ENERGY. Taylor & Francis, 2000. http://dx.doi.org/10.4324/9780203194034.

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Henderson, Oscar P. Biomass for energy. Nova Science Publishers, 2011.

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United States. Congress. Senate. Committee on Agriculture, Nutrition, and Forestry. Grow it here, make it here: Creating jobs through bio based manufacturing : hearing before the Committee on Agriculture, Nutrition and Forestry, United States Senate, One Hundred Thirteenth Congress, second session, June 17, 2014. U.S. Government Publishing Office, 2015.

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Southern Biomass Energy Research Conference (3rd 1985 Gainesville, Fla.). Biomass energy development. Plenum Press, 1986.

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Sifford, Alex. Directory of Oregon biomass energy facilities. Oregon Department of Energy, 1987.

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Janet, Christian. Bilan des valorisations énergétiques de biomasse en France: Du projet de développement agricole aux réalisations industrielles. Laboratoire INRA-IREP, 1985.

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Brazil. Ministério das Relações Exteriores. Coordenação de Divulgação. Biofuels in Brazil: Realities and prospects. Ministry of External Relations, 2007.

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Barbara, Jack Santa. The false promise of biofuels. International Forum on Globalization, 2007.

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Book chapters on the topic "Biomas energy industries"

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Seyfert, Ulrike, and Daniela Thrän. "Biogas biogas Substrates from Municipalities and Industries biogas substrates from industries." In Renewable Energy Systems. Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-5820-3_428.

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Ostermeier, David M., Timothy M. Young, and David F. Walsh. "Characteristics of Industrial Wood Energy Users." In Biomass Energy Development. Springer US, 1986. http://dx.doi.org/10.1007/978-1-4757-0590-4_3.

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Seyfert, Ulrike, Daniela Thrän, and Jasmin Kalcher. "Biogas Substrates from Municipalities and Industries." In Energy from Organic Materials (Biomass). Springer New York, 2018. http://dx.doi.org/10.1007/978-1-4939-7813-7_428.

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Burton, R. Edward. "A System for Producing Biomass Fuel for a Multiuse Industrial Park." In Biomass Energy Development. Springer US, 1986. http://dx.doi.org/10.1007/978-1-4757-0590-4_30.

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Sivamani, Selvaraju, B. S. Naveen Prasad, Zahrah Abdullah Khalfan Al-Sharji, et al. "Stoichiometric Analysis of Biogas Production from Industrial Residues." In Clean Energy Production Technologies. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-13-8637-4_6.

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Roy, Shantonu. "Biological Gaseous Energy Recovery from Lignocellulosic Biomass." In Lignocellulosic Biomass Production and Industrial Applications. John Wiley & Sons, Inc., 2017. http://dx.doi.org/10.1002/9781119323686.ch2.

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Anawar, Hossain M., and Vladimir Strezov. "Technical and Economic Assessment of Biogas and Liquid Energy Systems from Sewage Sludge and Industrial Waste." In Renewable Energy Systems from Biomass. CRC Press, 2018. http://dx.doi.org/10.1201/9781315153971-4.

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Venderbosch, R. H., and W. Prins. "Fast Pyrolysis of Biomass for Energy and Chemicals: Technologies at Various Scales." In Sustainable Development in the Process Industries. John Wiley & Sons, Inc., 2010. http://dx.doi.org/10.1002/9780470586099.ch7.

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Silva, Sandra, Ana Cristina Rodrigues, Ana Ferraz, and Joaquim Alonso. "An Integrated Approach for Efficient Energy Recovery Production from Livestock and Agro-Industrial Wastes." In Waste Biomass Management – A Holistic Approach. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-49595-8_15.

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Wasiak, Andrzej L., and Olga Orynycz. "The Effects of Biomass Transport Between Plantation and Industrial Facility on Energy Efficiency of Biofuel Production System." In Springer Proceedings in Energy. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-72371-6_22.

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Conference papers on the topic "Biomas energy industries"

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RUBEŽIUS, Mantas, Kęstutis VENSLAUSKAS, and Kęstutis NAVICKAS. "CONVERSION TO BIOGAS OF HERBACEOUS PLANTS, USED FOR OIL HYDROCARBONS CONTAMINATED SOILS CLEANING." In RURAL DEVELOPMENT. Aleksandras Stulginskis University, 2018. http://dx.doi.org/10.15544/rd.2017.197.

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Fossil fuel demand growth in and price fluctuation, depletion resources and supply monopolize, climate change is forcing the restructuring of energy and other industrial and transport area, seeking for renewable energy sources. Using phytoremedial methods in biomass engineering, there is a possibility to create a sustainable method of biomass growth in mid-low contaminated sites soil system. Main aim of the research was to assess the oil-contaminated soil treatment herbaceous plants and their subsequent use for biogas production in order to create a closed cleaning and plant biomass utilizatio
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Zaichenko, V. M., A. Yu Krylova, K. O. Krysanova, and A. L. Shevchenko. "Energy Disposal of Biomass." In 2020 International Multi-Conference on Industrial Engineering and Modern Technologies (FarEastCon). IEEE, 2020. http://dx.doi.org/10.1109/fareastcon50210.2020.9271083.

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Hassan, Muhammad Tahir, Stas Burek, and Mohamed Emad Farrag. "Industrial Energy Efficiency Optimisation Through Cogeneration Using Biomass." In 2018 53rd International Universities Power Engineering Conference (UPEC). IEEE, 2018. http://dx.doi.org/10.1109/upec.2018.8541857.

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Karklina, Katrina, Vladimirs Kirsanovs, Ivars Veidenbergs, Dagnija Blumberga, and Dainius Paliulis. "DOWNDRAFT GASIFIER INDUSTRIAL EXPERIMENT." In Conference for Junior Researchers „Science – Future of Lithuania“. VGTU Technika, 2016. http://dx.doi.org/10.3846/aainz.2016.10.

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Economic and environmental considerations of fossil fuel use, such as its shortage and impact on the air quality, as well as contribution to the climate change process, has lead to the necessity to develop biomass-based energy supply systems. Biomass is a renewable resource, which is an alternative for the fossil fuel. However, use of solid biomass is limited by the applicable technologies – it is not possible to use it in gas turbines or internal combustion engines, which are applied for the efficient combined heat and power generation. Therefore, biomass gasification is considered as a means
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Enweremadu, Christopher, Debendra Baruah, Sadhan Mahapatra, Dipam Patowary, Gunajit Sarma, and Sampriti Kataki. "Addressing Economic and Energy Poverty Through Locally Available Biomass Resources: Investigation of Issues Concerning India and South Africa." In ASME 2018 12th International Conference on Energy Sustainability collocated with the ASME 2018 Power Conference and the ASME 2018 Nuclear Forum. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/es2018-7292.

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The cyclic effect of energy poverty and economic poverty has been conclusively evidenced primarily from the experiences of developing World. In the developing countries, struggle to meet the basic energy needs impacts the life of the poorer section in terms of cost of health, education and quality. However, considering the adequate biomass resources and sustainable technologies for conversion of surplus biomass into useful form of energy; integration of the surplus resources with appropriate technology offers opportunities to address both energy and economic poverty. In this study, feasibility
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"Study on the Biomass Energy and Its Industrial Development." In 2018 International Conference on Economics, Politics and Business Management. Francis Academic Press, 2018. http://dx.doi.org/10.25236/icepbm.2018.52.

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Vinicius Dreischerf Pereira, Gustavo Henrique Gerlach de Almeida, Nelson Fernando Herculano Selesu, et al. "Energy analysis of microalgae biomass recovered from industrial photobioreactor." In 23rd ABCM International Congress of Mechanical Engineering. ABCM Brazilian Society of Mechanical Sciences and Engineering, 2015. http://dx.doi.org/10.20906/cps/cob-2015-2008.

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Bain, Richard L., Kevin C. Craig, and Ralph P. Overend. "Biomass Gasification — Commercialization and Development: The Combined Heat and Power (CHP) Option." In ASME 1997 International Gas Turbine and Aeroengine Congress and Exhibition. American Society of Mechanical Engineers, 1997. http://dx.doi.org/10.1115/97-gt-291.

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World-wide, biomass is the most used nonfossil fuel and is expanding from its traditional thermal applications to more usage for liquid fuels and electricity. More than 9 gigawatts of biomass electrical generation capacity have been installed in the United States, primarily by forest products industries, since the Public Utilities Regulatory Policy Act (PURPA) was passed. Combined heat and power (CHP) technologies promise to improve power-to-heat efficiencies to strengthen the economic viability of these electrical generating methods. These technologies, which are now being tested and demonstr
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Weaver, Bryn M., and Harsha Wickramasinghe. "Dendro: Biomass Power From, By, and For the People of Sri Lanka." In ASME 2006 International Solar Energy Conference. ASMEDC, 2006. http://dx.doi.org/10.1115/isec2006-99068.

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Sri Lanka’s power crisis presents considerable challenges and opportunities as attempts are made to electrify the remaining 30% of non-grid connected areas and generate reliable power in a sustainable manner. Fifty percent of the energy needs in the country are being met with biomass, 70% of these are domestic rural users. Meeting Sri Lanka’s ever-growing electricity demand with fossil fuel imports is siphoning off 30% of export earnings annually. Biomass based electricity generation, commonly referred to as dendro power, has emerged as the most sustainable option in Sri Lanka to meet spiking
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Sathish, S., R. Balaji, S. M. Shafee, and C. Mageswaran. "Experimental analysis on anaerobic digestion of industrial waste biomass." In NATIONAL CONFERENCE ON ENERGY AND CHEMICALS FROM BIOMASS (NCECB). AIP Publishing, 2020. http://dx.doi.org/10.1063/5.0006030.

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Reports on the topic "Biomas energy industries"

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Pag, F., M. Jesper, U. Jordan, W. Gruber-Glatzl, and J. Fluch. Reference applications for renewable heat. IEA SHC Task 64, 2021. http://dx.doi.org/10.18777/ieashc-task64-2021-0002.

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There is a high degree of freedom and flexibility in the way to integrate renewable process heat in industrial processes. Nearly in every industrial or commercial application various heat sinks can be found, which are suitable to be supplied by renewable heat, e.g. from solar thermal, heat pumps, biomass or others. But in contrast to conventional fossil fuel powered heating systems, most renewable heating technologies are more sensitive to the requirements defined by the specific demand of the industrial company. Fossil fuel-based systems benefit from their indifference to process temperatures
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Tomberlin, G., and G. Mosey. Feasibility Study of Economics and Performance of Biomass Power Generation at the Former Farmland Industries Site in Lawrence, Kansas. A Study Prepared in Partnership with the Environmental Protection Agency for the RE-Powering America's Land Initiative: Siting Renewable Energy on Potentially Contaminated Land and Mine Sites. Office of Scientific and Technical Information (OSTI), 2013. http://dx.doi.org/10.2172/1071958.

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A method for the assessment of site-specific economic impacts of commercial and industrial biomass energy facilities. A handbook and computer model. Office of Scientific and Technical Information (OSTI), 1994. http://dx.doi.org/10.2172/10190290.

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