References

  1. A.A. Hassan, M.M. Awad, Bibliometric analysis on hybrid renewable energy-driven desalination technologies, Energy Nexus, 11 (2023) 100215, doi: 10.1016/j.nexus.2023.100215.
  2. M. Salehi, Global water shortage and potable water safety; today’s concern and tomorrow’s crisis, Environ. Int., 158 (2022) 106936, doi: 10.1016/j.envint.2021.106936.
  3. S. Poonia, A.K. Singh, D. Jain, Design development and performance evaluation of concentrating solar thermal desalination device for hot arid region of India, Desal. Water Treat., 205 (2020) 1–11.
  4. A.K. Singh, S. Poonia, P. Santra, D. Mishra, Design, development and performance evaluation of non-tracking cooker type solar water purifier, Desal. Water Treat., 77 (2017) 349–354.
  5. A.K. Singh, S. Poonia, D. Jain, D. Mishra, Performance evaluation and economic analysis of solar desalination device made of building materials for hot arid climate of India, Desal. Water Treat., 141 (2019) 36–41.
  6. S. Poonia, A.K. Singh, D. Singh, J.K. Gaur, Estimation of a business model of animal feed solar cooker for entrepreneurship development, Ann. Plant Soil Res., 25 (2023) 322–328.
  7. S. Poonia, N.K. Jat, P. Santra, A.K. Singh, D. Jain, H.M. Meena, Techno-economic evaluation of different agri-voltaic designs for the hot arid ecosystem India, Renewable Energy, 184 (2022a) 149–163.
  8. S. Poonia, A.K. Singh, D. Jain, Performance evaluation of PCM-based solar concentrator type desalination device, Mater. Today Proc., 62 (2022b) 5194–5200.
  9. A.R. Kalair, S. Dilshad, N. Abas, M. Seyedmahmoudian, A. Stojcevski, K. Koh, Application of business model canvas for solar thermal air conditioners, Front. Energy Res., 9 (2021) 671973, doi: 10.3389/fenrg.2021.671973.
  10. N. Bocken, F. Boons, B. Baldassarre, Sustainable business model experimentation by understanding ecologies of business models, J. Cleaner Prod., 208 (2019) 1498–1512.
  11. R. Leisen, B. Steffen, C. Weber, Regulatory risk and the resilience of new sustainable business models in the energy sector, J. Cleaner Prod., 219 (2019) 865–878.
  12. E. Karakaya, C. Nuur, A. Hidalgo, Business Model Challenge: Learnings From a Local Solar Company in Germany, 1st Annual European Doctorate in Industrial Management Conference, 2014.
  13. E. Karakaya, C. Nuur, A. Hidalgo, Business model challenge: lessons from a local Solar Company, Renewable Energy, 85 (2016) 1026–1035.
  14. S. Zhang, Innovative business models and financing mechanisms for distributed solar PV (DSPV) deployment in China, Energy Policy, 95 (2016) 458–467.
  15. C. Zhang, J. Yan, Business model innovation on the photovoltaic water pumping systems for grassland and farmland conservation in China, Energy Procedia, 61 (2014) 1483–1486.
  16. A.K. Singh, S. Poonia, D. Jain, D. Mishra, R.K. Singh, Economic evaluation of a business model of selected solar thermal devices in Thar Desert of Rajasthan, India, Agric. Eng. Int.: CIGR J., 22 (2020) 129–137.
  17. Z. Li, L. Ma, Z. Li, W. Ni, Multi-energy cooperative utilization business models: a case study of the solar-heat pump water heater, Renewable Sustainable Energy Rev., 108 (2019) 392–397.
  18. A.K. Singh, S. Poonia, D. Jain, Economic analysis of a business model of an inclined solar dryer, RASSA J. Sci. Soc., 4 (2022) 67–72.
  19. Y. Zheng, K.B. Hatzell, Techno-economic analysis of solar thermal desalination. Desalination, 474 (2020) 114168, doi: 10.1016/j.desal.2019.114168.
  20. K. Yang, X. Cheng, T. Mwamulima, H. Guo, C. Peng, Economic analysis of a household solar desalination device integrated with photo-thermal and photovoltaic, Desal. Water Treat., 103 (2018) 11–17.
  21. R. Kasprowicz, C. Schulz, Availability-based payback method for energy efficiency measures, Procedia CIRP, 29 (2015) 710–715.
  22. S. Poonia, A.K. Singh, P. Santra, D. Jain, Development and performance evaluation of high insulation box-type solar cooker, Agric. Eng. Today, 43 (2019) 1–10.
  23. S.K. Rajput, O. Singh, Reduction in CO2 Emission Through Photovoltaic System: A Case Study, Presented at 3rd IEEE International Conference on Nanotechnology for Instrumentation and Measurement, Gautam Buddha University, Gr. Noida, India During 16–17 November 2017.
  24. J. Izquierdo, R.E. Blanchard, Solar desalination system design for irrigation/drinking water and electricity generation in desert or arid areas, J. Sustainable Res., 2 (2020) e200018, doi: 10.20900/jsr20200018.
  25. N.S. Chandell, M.K. Singh, K.P. Saha, H. Tripathi, Estimation of capital budgeting for entrepreneurship development through custom hiring of harvesting machinery, Agric. Eng. Today, 41 (2017) 21–28.
  26. A. Ghafoor, T. Ahmed, A. Munir, Ch. Arslan, S.A. Ahmad, Techno-economic feasibility of solar based desalination through reverse osmosis, Desalination, 485 (2020) 114464, doi: 10.1016/j. desal.2020.114464.
  27. B.J. Sherrick, P.N. Ellinger, D.A. Lins, Time Value of Money and Investment Analysis: Explanations and Spreadsheet Applications for Agricultural and Agribusiness Firms, Part II. Vol. 1–2, 2000.
  28. H. Dai, N. Li, Y. Wang, X. Zhao, The analysis of three main investment criteria: NPV IRR and payback period, Adv. Bus. Manage. Res., 648 (2022) 185–189.