Comparative study on steam flash, organic flash and Kalina for enhanced power generation from waste heat recovery

Pradeep Varma, G. V.; Srinivas, T.

Artykuł - szczegóły

Tytuł artykułu

Comparative study on steam flash, organic flash and Kalina for enhanced power generation from waste heat recovery

Autorzy

Pradeep Varma G. V. , Srinivas T.

Wybrane pełne teksty z tego czasopisma

https://papers.itc.pw.edu.pl/index.php/JPT

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

A huge amount of waste hot gases from cement factories are available for power generation. The current work is focused on enhancing the power from the hot gas with proper power augmentation and selection of technology. The selection of power plant and working fluid influences the output from waste heat recovery. In the current work, three power plants are considered at low temperature heat recovery (LTHR) and five power plants are considered at intermediate temperature heat recovery (ITHR). Organic Rankine cycle (ORC), organic flash cycle (OFC), Kalina cycle system (KCS) are studied at LTHR and ITHR and steam Rankine cycle (SRC) and steam flash cycle (SFC) are studied at ITHR. R124 and ammonia are selected respectively at LTHR and ITHR organic cycles (ORC and OFC). Following a comparative study, OFC is recommended for LTHR and KCS is recommended for ITHR on the basis of maximum power generation.

Słowa kluczowe

energy efficiency flash cycle heat recovery Kalina vapor absorption

energia wydajność odzysk ciepła Kalina absorpcja pary

Wydawca

Institute of Heat Engineering, Warsaw University of Technology

Czasopismo

Journal of Power Technologies

Rocznik

2016

Tom

Vol. 96, nr 2

Strony

81--91

Opis fizyczny

Bibliogr. 17 poz., rys., tab., wykr.

Twórcy

autor

Pradeep Varma G. V.

srinivastpalli@yahoo.co.in

Department of Mechanical Engineering, Coastal Institute of Technology and Management Engineering, Vijayanagaram, India

autor

Srinivas T.

CO2 Research and Green Technologies Centre, School of Mechanical Engineering, VIT University, Vellore, India 632 014

Bibliografia

[1] A. Tiča, H. Guéguen, D. Dumur, D. Faille, F. Davelaar, Design of a combined cycle power plant model for optimization, Applied energy 98 (2012) 256–265.
[2] S. Cafaro, L. Napoli, A. Traverso, A. Massardo, Monitoring of the thermoeconomic performance in an actual combined cycle power plant bottoming cycle, Energy 35 (2) (2010) 902–910.
[3] T. Srinivas, A. V. Gupta, B. Reddy, Thermodynamic modeling and optimization of multipressure heat recovery steam generator in combined power cycle, J. Sci. Ind. Res 67 (10) (2008) 827–834.
[4] J. Wang, Y. Dai, L. Gao, Exergy analyses and parametric optimizations for different cogeneration power plants in cement industry, Applied Energy 86 (6) (2009) 941–948.
[5] T. Ho, S. S. Mao, R. Greif, Comparison of the organic flash cycle (ofc) to other advanced vapor cycles for intermediate and high temperature waste heat reclamation and solar thermal energy, Energy 42 (1) (2012) 213–223.
[6] G. P. Varma, T. Srinivas, Design and analysis of a cogeneration plant using heat recovery of a cement factory, Case Studies in Thermal Engineering 5 (2015) 24–31.
[7] R. Chacartegui, D. Sánchez, J. Muñoz, T. Sánchez, Alternative orc bottoming cycles for combined cycle power plants, Applied Energy 86 (10) (2009) 2162–2170.
[8] S. Quoilin, S. Declaye, B. F. Tchanche, V. Lemort, Thermo-economic optimization of waste heat recovery organic rankine cycles, Applied thermal engineering 31 (14) (2011) 2885–2893.
[9] J. Wang, Z. Yan, M. Wang, S. Ma, Y. Dai, Thermodynamic analysis and optimization of an (organic rankine cycle) orc using low grade heat source, Energy 49 (2013) 356–365.
[10] H. Rosyid, R. Koestoer, N. Putra, A. Mohamad, et al., Sensitivity analysis of steam power plant-binary cycle, Energy 35 (9) (2010) 3578–3586.
[11] J. Sarkar, S. Bhattacharyya, Potential of organic rankine cycle technology in india: Working fluid selection and feasibility study, Energy 90 (2015) 1618–1625.
[12] F. Heberle, M. Preißinger, D. Brüggemann, Zeotropic mixtures as working fluids in organic rankine cycles for low-enthalpy geothermal resources, Renewable Energy 37 (1) (2012) 364–370.
[13] J. Hua, Y. Chen, J. Wu, Z. Zhi, C. Dong, Waste heat supply-side power regulation with variable concentration for turbine in kalina cycle, Applied Thermal Engineering 91 (2015) 583–590.
[14] S. Li, Y. Dai, Thermo-economic comparison of kalina and co 2 transcritical power cycle for low temperature geothermal sources in china,
Applied Thermal Engineering 70 (1) (2014) 139–152.
[15] J. Kotowicz, M. Job, L. Bartela, M. Brzeczek, A. Skorek-Osikowska, Utilization of heat recovered from compressed gases in an oxycombustion power unit to power the organic rankine cycle module, Journal of Power Technologies 95 (4) (2015) 239.
[16] N. S. Ganesh, T. Srinivas, Design and modeling of low temperature solar thermal power station, Applied energy 91 (1) (2012) 180–186.
[17] N. S. Ganesh, T. Srinivas, Power augmentation in a kalina power station for medium temperature low grade heat, Journal of Solar Energy Engineering 135 (3) (2013) 031010.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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