New trends in development of ORC's for micropower generation

• Autorzy: Mikielewicz J. , Mikielewicz D.
• Konferencja: International Symposium on Compressor & Turbine Flow Systems Theory & Application Areas "SYMKOM" (11 ; 20-23.10.2014 ; Łódź, Polska)
• Języki publikacji: EN

Abstrakty

EN

In the paper, new trends in development of micropower generation of heat and electricity are presented. New type of CHP for domestic usage is developed in the Institute of Fluid-Flow Machinery PAS and methods of its design are presented. The most promising trends in equipment of ORC cycle for this purpose were discussed. Main attention was focused on micro-heat exchangers design based on micro-channels and micro-jets. In our opinion future development of high power heat exchangers will be based on nets micro heat exchangers.

Słowa kluczowe

EN

CHP; ORC; heat exchangers; heat transfer intensification; thermodynamics

PL

wymienniki ciepła; intensyfikacja wymiany ciepła; termodynamika

• Wydawca: Wydawnictwo Politechniki Łódzkiej
• Czasopismo: Zeszyty Naukowe. Cieplne Maszyny Przepływowe - Turbomachinery / Politechnika Łódzka
• Rocznik: 2014
• Tom: nr 145
• Strony: 91--94
• Opis fizyczny: Bibliogr. 21 poz.

Twórcy

autor

Mikielewicz J.

• Institute of Fluid-Flow Machinery Polish Academy of Sciences, 14 Fiszera St, 80-231 Gdańsk, Poland

autor

Mikielewicz D.

• Gdańsk University of Technology Faculty of Mechanical Engineering 11/12 Narutowicza St, 80-233 Gdańsk, Poland

Bibliografia

• [1] Harrison J.: EA Technology, presentation „Micro CHP in Europe”, National Micro-CHP Technology Pathways Workshop, June 11-12,2003, The Greenbelt Mariott, Maryland.
• [2] Mikielewicz J.: Micro heat and power plants working in organic Rankine cycle,Polish Journal of Environmental Studies, Vol. 19, No. 3 (2010), 499-505.
• [3] Borsukiewicz-Gozdur A.: Influence of heat recuperation in ORC power plant on efficiency of waste heat utilization, Archives of thermodynamics, Vol. 31 (2010), No. 4, 111-123.
• [4] Zhou N., Wang X., Chen Z., Wang Z.: Experimental study on Organic Rankine Cycle for waste heat recovery from low-temperature flue gas Energy 55 (2013).
• [5] Astolfi M., Xodo L., Romano M.C., Macchi E.: Technical and economical analysis of a solar – geothermal hybrid plant based on an Organic Rankine Cycle , Geothermics 40 (2011) 58-68.
• [6] Borsukiewicz-Gozdur A.: Dual fluid hybrid power plant co-powered by low temperature geothermal water, Geothermics 39 (2010) 170-175
• [7] Mikielewicz J.: Domestic combined micro heat and power plant, Rocznik; Ochrona Środowiska; T11; Rok 2009; 25-38.
• [8] Mikielewicz J., Bykuć S.: Koncepcja mikrosiłowni kogeneracyjnej pracującej w obiegu Rankine'a., Archiwum Energetyki, Tom XXXVI, PL ISSN 0066-684X, Gdańsk 2006.
• [9] Mikielewicz J. i in.: Combined micro heat and power plant based on organic rankine., Acta Mechanica Slovaca, Kosice, 4-D/2007, ISSN 1335-2393, 217-222.
• [10] Mikielewicz J., Bykuć S., Mikielewicz D.: Algorithm and a code for thermodynamical calculations of micro CHP for different working fluids, IFFM internal report, 2007.
• [11] Mikielewicz J., Bykuć S., Mikielewicz D.: Application of renewable energy sources to drive Organic Rankine Cycle micro CHP, Proc. of Heat Transfer and Renewable Sources of Energy, 329-336, Międzyzdroje 2006.
• [12] Mikielewicz D., Mikielewicz J.: Analytical method for calculation of heat source temperature drop for the Organic Rankine Cycle application, Applied Thermal Engineering 63(2014) 541-550.
• [13] Mikielewicz D., Wajs J., Mikielewicz J.: Recovery of waste heat from the coal-fired power unit using Organic Rankine Cycle, 1st Int. Seminar on ORC Power Systems, 22-23 September 2011, Deft, Netherlands.
• [14] Maizza V., Maizza A.: Unconventional working fluids in organic Rankine-cycles for waste energy recovery systems, Applied Thermal Engineering, 21, 381-390, 2001.
• [15] Saleh B., Koglbauer G., Wendland M., Fischer J.: Working fluids for low-temperature organic Rankine cycles, Energy, 32, 1210-1221, 2007.
• [16] Tchanche B.F., Papadakis G., Lambrinos G., Frangoudakis A.: Fluid selection for a low-temperature solar organic Rankine cycle, Applied Thermal Engineering 29 (2009).
• [17] Mikielewicz D., Mikielewicz J.: A thermodynamic criterion for selection of working fluid for subcritical and super critical domestic micro CHP, Applied Thermal Engineering Vol. 30, (2010), 2357-2362.
• [18] Mikielewicz J. i in.: Analysis of selected fluids for use in micro-chp for domestic applications, Inter. Conf. University of Applied Sciences Bremen, D-28195 Bremen., 08-09 Nov. 2007.
• [19] Refprop 8.0, NIST, 2007.
• [20] Rybiński W.: Design and implementation of new versions of Wilson plot method in the-evaporator’s zone model for determination of heat flow characteristics, IFFM internal report, 2013.
• [21] Mikielewicz D. et al: Selected topics of design and investigation of heat exchangers for ORC in a domestic CHP (in Polish), 183-198, Gdańsk 2013.