References

1. S. Bhawan, R.K. Puram, CO₂ Baseline Database for the Indian Power Sector User Guide Government of India Ministry of Power Central Electricity Authority, 2014, Available at: http://cea.nic.in/reports/others/thermal/tpece/cdm_co2/user_guide_ver10.pdf.
2. H. Sharon, K.S. Reddy, Performance investigation and enviroeconomic analysis of active vertical solar distillation units, Energy, 84 (2015) 794–807.
3. V.K. Dwivedi, G.N. Tiwari, Thermal modeling and carbon credit earned of a double slope passive solar still, Desal. Wat. Treat., 13 (2012) 400–410.
4. T. Rajaseenivasan, K. Srithar, Performance investigation on solar still with circular and square fins in basin with CO₂ mitigation and economic analysis, Desalination, 380 (2016) 66–74.
5. India Solar Resource Maps, Global Horizontal Irradiance-Annual Average, Available at: https://www.nrel.gov/international/images/india_ghi_ annual.jpg (last accessed on 26th June 2018).
6. M.K. Phadatare, S.K. Verma, Influence of water depth on internal heat and mass transfer in a plastic solar still, Desalination, 217 (2007) 267–275.
7. P.U. Suneesh, R. Jayaprakash, T. Arunkumar, D. Denkenberger, Effect of air flow on “V” type solar still with cotton gauze cooling, Desalination, 337 (2014) 1–5.
8. Y. Taamneh, M.M. Taamneh, Performance of pyramid-shaped solar still: experimental study, Desalination, 291 (2012) 65–68.
9. M.H. Sellami, R. Touahir, S. Guemari, K. Loudiyi, Use of Portland cement as heat storage medium in solar desalination, Desalination, 398 (2016) 180–188.
10. P.K. Srivastava, S.K. Agrawal, Experimental and theoretical analysis of single sloped basin type solar still consisting of multiple low thermal inertia floating porous absorbers, Desalination, 311 (2013) 198–205.
11. S. Abdallah, M.M. Abu-Khader, O. Badran, Effect of various absorbing materials on the thermal performance of solar stills, Desalination, 242 (2009) 128–137.
12. K.K. Murugavel, S. Sivakumar, J.R. Ahamed, K.K.S.K. Chockalingam, K. Srithar, Single basin double slope solar still with minimum basin depth and energy storing materials, Appl. Energy, 87 (2010) 514–523.
13. H.S. Deshmukh, S.B. Thombre, Solar distillation with single basin solar still using sensible heat storage materials, Desalination, 410 (2017) 91–98.
14. F.F. Tabrizi, A.Z. Sharak, Experimental study of an integrated basin solar still with a sandy heat reservoir, Desalination, 253 (2010) 195–199.
15. T. Arunkumar, D. Denkenberger, A. Ahsan, R. Jayaprakash, The augmentation of distillate yield by using concentrator coupled solar still with phase change material, Desalination, 314 (2013) 189–192.
16. A.E. Kabeel, M. Abdelgaied, Improving the performance of solar still by using PCM as a thermal storage medium under Egyptian conditions, Desalination, 383 (2016) 22–28.
17. T. Arunkumar, R. Jayaprakash, D. Denkenberger, A. Ahsan, M.S. Okundamiya, S. Kumar, H. Tanaka, H.Ş. Aybar, An experimental study on a hemispherical solar still, Desalination, 286 (2012) 342–348.
18. H.E. Gad, S. Shams El-Din, A.A. Hussien, K. Ramzy, Thermal analysis of a conical solar still performance: an experimental study, Sol. Energy, 122 (2015) 900–909.
19. R. Sathyamurthy, H.J. Kennady, P.K. Nagarajan, A. Ahsan, Factors affecting the performance of triangular pyramid solar still, Desalination, 344 (2014) 383–390.
20. A.E. Kabeel, Performance of solar still with a concave wick evaporation surface, Energy, 34 (2009) 1504–1509.
21. M.R. Karimi Estahbanati, A. Ahsan, M. Feilizadeh, K. Jafarpur, S.S. Ashrafmansouri, M. Feilizadeh, Theoretical and experimental investigation on internal reflectors in a single-slope solar still, Appl. Energy, 165 (2016) 537–547.
22. A.F. Mashaly, A.A. Alazba, A.M. Al-awaadh, M.A. Mattar, Predictive model for assessing and optimizing solar still performance using artificial neural network under hyper arid environment, Sol. Energy, 118 (2015) 41–58.
23. A.F. Mashaly, A.A. Alazba, MLP and MLR models for instantaneous thermal efficiency prediction of solar still under hyperarid environment, Comput. Electron. Agric., 122 (2016) 146–155.
24. M.A. Hamdan, R.A.H. Khalil, E.A.M. Abdelhafez, Comparison of neural network models in the estimation of the performance of solar still under Jordanian climate, J. Clean Energy Technol., 1 (2013) 238–242.
25. N.I. Santos, A.M. Said, D.E. James, N.H. Venkatesh, Modeling solar still production using local weather data and artificial neural networks, Renewable Energy, 40 (2012) 71–79.
26. A.F. Mashaly, A.A. Alazba, Comparative investigation of artificial neural network learning algorithms for modeling solar still production, J. Water Reuse Desal., (2015) 480–493.
27. M. Benghanem, A. Mellit, S.N. Alamri, ANN-based modelling and estimation of daily global solar radiation data: a case study, Energy Convers. Manage., 50 (2009) 1644–1655.
28. A. Rahimikhoob, Estimating global solar radiation using artificial neural network and air temperature data in a semiarid environment, Renewable Energy, 35 (2010) 2131–2135.
29. K.S. Reddy, M. Ranjan, Solar resource estimation using artificial neural networks and comparison with other correlation models, Energy Convers. Manage., 44 (2003) 2519–2530.
30. M.N.Q. Macedo, J.J.M. Galo, L.A.L. de Almeida, A.C. de C. Lima, Demand side management using artificial neural networks in a smart grid environment, Renewable Sustainable Energy Rev., 41 (2015) 128–133.
31. J. Mubiru, E.J.K.B. Banda, Estimation of monthly average daily global solar irradiation using artificial neural networks, Sol. Energy, 82 (2008) 181–187.
32. J. Wasilewski, D. Baczynski, Short-term electric energy production forecasting at wind power plants in pareto-optimality context, Renewable Sustainable Energy Rev., 69 (2017) 177–187.
33. T. Khatib, A. Mohamed, K. Sopian, M. Mahmoud, Solar energy prediction for Malaysia using artificial neural networks, Int. J. Photoenergy, 2012 (2012) 1–16.
34. R. Kumar, R.K. Aggarwal, J.D. Sharma, Comparison of regression and artificial neural network models for estimation of global solar radiations, Renewable Sustainable Energy Rev., 52 (2015) 1294–1299.
35. H. Chitsaz, H. Shaker, H. Zareipour, D. Wood, N. Amjady, Short-term electricity load forecasting of buildings in microgrids, Energy Build., 99 (2015) 50–60.
36. A.K. Tossa, Y.M. Soro, Y. Azoumah, D. Yamegueu, A new approach to estimate the performance and energy productivity of photovoltaic modules in real operating conditions, Sol. Energy, 110 (2014) 543–560.
37. A.K. Yadav, S. Chandel, Artificial neural network based prediction of solar radiation for Indian stations, Int. J. Comput. Appl., 50 (2012) 1–4.
38. L. Mba, P. Meukam, A. Kemajou, Application of artificial neural network for predicting hourly indoor air temperature and relative humidity in modern building in humid region, Energy Build., 121 (2016) 32–42.
39. M. Ozgoren, M. Bilgili, B. Sahin, Estimation of global solar radiation using ANN over Turkey, Expert Syst. Appl., 39 (2012) 5043–5051.
40. A.K. Yadav, H. Malik, S.S. Chandel, Selection of most relevant input parameters using WEKA for artificial neural network based solar radiation prediction models, Renewable Sustainable Energy Rev., 31 (2014) 509–519.
41. A.K. Yadav, S.S. Chandel, Solar radiation prediction using Artificial Neural Network techniques: a review, Renewable Sustainable Energy Rev., 33 (2014) 772–781.
42. A.F. Mashaly, A.A. Alazba, Neural network approach for predicting solar still production using agricultural drainage as a feedwater source, Desal. Wat. Treat., 57 (2016) 28646–28660.
43. A. Teke, H.B. Yıldırım, Ö. Çelik, Evaluation and performance comparison of different models for the estimation of solar radiation, Renewable Sustainable Energy Rev., 50 (2015) 1097–1107.
44. E. Paulescu, R. Blaga, Regression models for hourly diffuse solar radiation, Sol. Energy, 125 (2016) 111–124.
45. M.F. Li, X.P. Tang, W. Wu, H. Bin Liu, General models for estimating daily global solar radiation for different solar radiation zones in mainland China, Energy Convers. Manage., 70 (2013) 139–148.
46. E. Okeke, S.U. Egarievwe, A.E. Anmalu, Effects of coal and charcoal on solar-still performance, Energy, 15 (1990) 1071–1073.
47. W.A. Kamal, A theoretical and experimental study of the basintype solar still under the Arabian gulf climatic conditions, Solar Wind Technol., 5 (1988) 147–157.
48. M.A.S. Malik, G.N. Tiwari, A. Kumar, M.S. Sodha, Solar Distillation, Pergamon Press, Oxford, 1982.
49. S.M. Al-Alawi, H.A. Al-Hinai, An ANN-based approach for predicting global radiation in locations with no direct measurement instrumentation, Renewable Energy, 14 (1998) 199–204.
50. P.I. Cooper, Digital simulation of transient solar still processes, Sol. Energy, 12 (1969) 313–331.
51. A.K. Rajvanshi, Effect of various dyes on solar distillation, Sol. Energy, 27 (1981) 51–65.
52. A.A. El-Sebaii, Effect of wind speed on active and passive solar stills, Energy Convers. Manage., 45 (2004) 1187–1204.