Power generation enhancement in a salinity-gradient solar pond power plant using thermoelectric generator

Abstract Salinity-gradient solar pond (SGSP) has been a reliable supply of heat source for power generation when it has been integrated with low temperature thermodynamics cycles like organic Rankine cycle (ORC). Also, thermoelectric generator (TEG) plays a critical role in the production of electricity from renewable energy sources. This paper investigates the potential of thermoelectric generator as a power generation system using heat from SGSP. In this work, thermoelectric generator was used instead of condenser of ORC with the purpose of improving the performance of system. Two new models of SGSP have been presented as: (1) SGSP using TEG in condenser of ORC without heat exchanger and (2) SGSP using TEG in condenser of ORC with heat exchanger. These proposed systems was evaluated through computer simulations. The ambient conditions were collected from beach of Urmia lake in IRAN. Simulation results indicated that, for identical conditions, the model 1 has higher performance than other model 2. For models 1 and 2 in T LCZ  = 90 °C, the overall thermal efficiency of the solar pond power plant, were obtained 0.21% and 0.2% more than ORC without TEG, respectively.

[1]  Mehmet Karakilcik Reply to “Erroneous equations used for energy and exergy analysis of a solar pond” by M. Khalilian , 2016 .

[2]  B. M. Ziapour,et al.  Heat transfer characteristics of a two-phase closed thermosyphon using different working fluids , 2010 .

[3]  Chun-wei Gu,et al.  Parametric design and off-design analysis of organic Rankine cycle (ORC) system , 2016 .

[4]  L. P. Bulat,et al.  Thermal-photovoltaic solar hybrid system for efficient solar energy conversion , 2006 .

[5]  Ismail Bozkurt,et al.  The effect of sunny area ratios on the thermal performance of solar ponds , 2015 .

[6]  Mohammad Hossein Ahmadi,et al.  Thermodynamic analysis of a combined gas turbine, ORC cycle and absorption refrigeration for a CCHP system , 2017 .

[7]  Lippong Tan,et al.  Small scale power generation using low grade heat from solar pond , 2012 .

[8]  Aliakbar Akbarzadeh,et al.  Electric power generation from solar pond using combined thermosyphon and thermoelectric modules , 2011 .

[9]  Mikael Höök,et al.  The Peak of the Oil Age : Analyzing the world oil production Reference Scenario in World Energy Outlook 2008 , 2010 .

[10]  Jianlin Yu,et al.  Experimental study on low-temperature waste heat thermoelectric generator , 2009 .

[11]  Firoz Alam,et al.  Investigate the potential of using trilateral flash cycle for combined desalination and power generation integrated with salinity gradient solar ponds , 2012 .

[12]  R. Sureshkumar,et al.  Heat transfer characteristics of nanofluids in heat pipes: A review , 2013 .

[13]  S. K. Samdarshi,et al.  Optimum size of non-convective zone for improved thermal performance of salt gradient solar pond , 2003 .

[14]  E. A. Chávez-Urbiola,et al.  Solar hybrid systems with thermoelectric generators , 2012 .

[15]  Abhijit Date,et al.  Base-load Thermoelectric Power Generation Using Evacuated Tube Solar Collector and Water Storage Tank , 2014 .

[16]  K. R. Agha The thermal characteristics and economic analysis of a solar pond coupled low temperature multi stage desalination plant , 2009 .

[17]  Ibrahim Dincer,et al.  Investigation of turbidity effect on exergetic performance of solar ponds , 2014 .

[18]  Ian Colbeck,et al.  A solar pond for London , 1977 .

[19]  Mounir Baccar,et al.  Transient hydrodynamic, heat and mass transfer in a salinity gradient solar pond: A numerical study , 2014 .

[20]  Behrooz M. Ziapour,et al.  Exergoeconomic analysis of the salinity-gradient solar pond power plants using two-phase closed thermosyphon: A comparative study , 2017 .

[21]  Scott W. Tyler,et al.  Understanding the expected performance of large-scale solar ponds from laboratory-scale observations and numerical modeling , 2014 .

[22]  Abhijit Date,et al.  Transient model to predict the performance of thermoelectric generators coupled with solar pond , 2016 .

[23]  Seok Hun Kang,et al.  Design and preliminary tests of ORC (organic Rankine cycle) with two-stage radial turbine , 2016 .

[24]  D. Infield,et al.  Design optimization of thermoelectric devices for solar power generation , 1998 .

[25]  M. Khalilian Erroneous equations used for energy and exergy analysis of a solar pond , 2016 .

[26]  W. Swinbank Long‐wave radiation from clear skies , 1963 .

[27]  H. M. Ali Potential of solar ponds in hot climates , 1989 .

[28]  M. Khalilian Erroneous equations used to assess the performance of a solar pond , 2016 .

[29]  F. Garrido,et al.  Design of solar pond for water preheating used in the copper cathodes washing at a mining operation at Sierra Gorda, Chile , 2013 .

[30]  Aliakbar Akbarzadeh,et al.  Heat extraction methods from salinity-gradient solar ponds and introduction of a novel system of heat extraction for improved efficiency , 2011 .

[31]  I. Bozkurt Reply to “Erroneous equations used to assess the performance of a solar pond” by Morteza Khalilian , 2016 .

[32]  A. S. Elasfouri,et al.  Performance of a salt-gradient solar pond for power production , 1985 .

[33]  S. D. Probert,et al.  Energy and condensation problems in buildings , 1984 .

[34]  M. S. Sodha,et al.  Thermal analysis of three zone solar pond , 1981 .

[35]  E. Bai,et al.  On the global warming problem due to carbon dioxide , 2008 .

[36]  F. Trieb,et al.  Solar electricity generation. A comparative view of technologies, costs and environmental impact , 1997 .

[37]  Aliakbar Akbarzadeh,et al.  Examining potential benefits of combining a chimney with a salinity gradient solar pond for production of power in salt affected areas , 2009 .

[38]  I. Alenezi Salinity Gradient Solar Ponds: Theoretical Modelling and Integration with Desalination. , 2012 .

[39]  Behrooz M. Ziapour,et al.  Comparatively study between single-phase and two-phase modes of energy extraction in a salinity-gradient solar pond power plant , 2016 .

[40]  Hongxia Xi,et al.  Development and applications of solar-based thermoelectric technologies , 2007 .

[41]  V.V.N. Kishore,et al.  CONSTRUCTION AND OPERATIONAL EXPERIENCE OF A 6000 m2 SOLAR POND AT KUTCH, INDIA , 1999 .

[42]  Ibrahim Dincer,et al.  Performance assessment of a solar pond with and without shading effect , 2013 .