1. bookVolume 23 (2019): Edizione 1 (March 2019)
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2449-5999
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12 Mar 2016
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Open Access

Multi-Fuel Power Plant as A Element of Back-Up Energy Supply of Farming Facilities

Pubblicato online: 13 May 2019
Volume & Edizione: Volume 23 (2019) - Edizione 1 (March 2019)
Pagine: 49 - 57
Ricevuto: 01 Nov 2018
Accettato: 01 Mar 2019
Dettagli della rivista
License
Formato
Rivista
eISSN
2449-5999
Prima pubblicazione
12 Mar 2016
Frequenza di pubblicazione
1 volta all'anno
Lingue
Inglese

Bicer, Y., Dincer, I. (2018). Life cycle environmental impact assessments and comparisons of alternative fuels for clean vehicles. Resources,Conservation and Recycling, 132,141-157.10.1016/j.resconrec.2018.01.036Search in Google Scholar

Budzko, I.A. (2000). Elektrosnabzenye selskovo hoziaystva. Kolos, Moscow, ISBN 5-10-0031172-7.Search in Google Scholar

Fernandez-Dacosta, C., Shen, L., Schakel, W., Ramirez, A., Kramer, G.J. (2019). Potential and challenges of low-carbon energy options: Comparative assessment of alternative fuels for the transport sector. Applied Energy, 15, 590-606.10.1016/j.apenergy.2018.11.055Search in Google Scholar

Gabitov, I.I. (2017). Energeticheskiy kompleks s gasogeneratornoy ustanovkoy dla malyh selsko-hazaystrennyh proizvodctv. Teoreticheskij i nauchno-prakticheskiy zurnal, 91, 14-23.Search in Google Scholar

Kipriyanov, F.A. (2014).Parametricheskiy gazogenerator s objemnym regulirobaniem protsesa gazi-fikatsyi. Molochnohozyaystvenny vestnik, 7(16), 84-89.Search in Google Scholar

Korotkov, A.N. (2018). Sovershenevovanye konstruktsyi i optimimizatsya konstruktivna technologicheskih parametrov gazogenieratorno ustanovkiy. Nauchno-kvalifikotsionoya robota na soyskanye stepeni, Moscow.Search in Google Scholar

Korotkov, A.N. Plotnikova, J.A., Palitsyn, A.V., Savinykh, P.A. (2018). Use of liquid cattle manure as an alternative fuel for piston internal combustion engine of a power plant. Problems of intensification of animal production including environment protection and alternative energy production as well as biogas. Warsaw, ISBN 978-83-65426-35-2, 88-93.Search in Google Scholar

Mahla, S.K., Singla, V., Sandhu, S.S., Dhir, A. (2018). Studies on biogas-fuelled compression ignition engine under dual fuel mode. Environmental Science and Pollution Research, 25, 9722-9729.10.1007/s11356-018-1247-429368199Search in Google Scholar

Morozov, N.M. (2011). Organizacjonno-ekonomicheskije i tehnologicheskije osnovy mehanizatsyi i avtomatyzatsyi. FGBNY Rosinformagrotech, Moscow.Search in Google Scholar

Ospretsov, V.N., Zubakin, A.S., Palitsyn, A.V., Korotkov, A.N. (2015). Gazogenerator. FGBOU Vologckaya GMHA NV. Vologda. Russia. Patent description, 2013132317. No 2555486 from 11.07.2013. Published 10.07.2015.Search in Google Scholar

Santanu, D., Avinash, K.A., Moholkar, V.S., Thallada, B. (ed.). (2018) Coal and Biomass Gasification. Recent Advances and Future Challenges. Springer Nature Singapore Pte Ltd., Singapore, ISBN 978-981-10-7334-2.Search in Google Scholar

Zubakin, A.S. (2016). Isledovaniye roboty DVS bytoroy elektrostan na alternativnych bidah topliva, s tselyu uluchsheniya kachestvennyh pokazateley vyrabatyvayemoy energetiki. Uspehi sovremennoy nauki, 12(8), 88-92.Search in Google Scholar

Zubakin, A.S. (2017). Opredeleniye optimalnogo ugla operezhnaya zozhgoniya dvigateliya 1 ch 6,8/5,4 pri rabote na generatornom gaze i smesti benzina i generatornogo. Uspehi sovremennoy nauki, 7, 132-166.Search in Google Scholar

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