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Maxim Nikitin 

443100, Russia, Samara, Molodogvardeyskaya, 244.
Department of Heat-Power Engineering, Subdepartment of Industrial Enegry.
nikitin-pro@mail.ru
In 2008 graduated from Samara State Technical University. Engineer (Industrial heat-power engineering), specialization: Power and energy supply at enterprises.
In 2012 gained a degree of Candidate of Science (equivalent to PhD in Technical Science). Theme of dissertation “Increasing energy and ecological efficiency of thermal processes by means of multicomponent heat carriers”.

Journal articles

2010
Maxim Nikitin (2010)  The effect of directional water injection in the power generator on the pressure of obtained gas-vapor mixture   Industrial Energy 6. 42-46  
Abstract: Perspectives of usage water injection impulse in mixing steam generators discussed. Method of superheating of water injected into the flow of flue gas described. Influence of temperature and pressure of injected water on heat generator efficiency and gas-vapor mixture pressure analyzed. Comparative analysis of heat generators with free and directional water injection presented.
Notes: This is an author translation of original article
Maxim Nikitin (2010)  Using of the gas mixture during fuel combustion   Industrial Energy 12. 37-42  
Abstract: Known method of heat recovery based on partial admixing of flue gas to blast air discussed. An advanced analog of this method proposed. The new method eliminates limitations of known method by using gas-vapor mixture as intermediate heat carrier. Efficiency of proposed method for heating low temperature mediums evaluated.
Notes: This is an author translation of original article

Conference papers

2011
Maxim Nikitin (2011)  Recirculating of burned fuel   In: Proceedings of XVII International Conference on Electronics, Electrotechnics and Energy 544-546 Moscow Power Engineering Institute Krasnokazarmennaya 14, Moscow, 111250 Russia: FSOE "RSI GEODEZIA"  
Abstract: Known method of heat recovery based on partial admixing of flue gas to blast air discussed. An advanced analog of this method proposed. The new method eliminates limitations of known method by using gas-vapor mixture as intermediate heat carrier. Efficiency of proposed method for heating low temperature mediums evaluated.
Notes: This is an author translation of original article
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