References

1. United Nations, Water for Food, UNCTAD, 2011, n°4.
2. H. Yasser, Frequency analysis of droughts using historical information – new approach for probability plotting position: deceedance probability, Int. J. Global Warming, 3 (2011), doi: 10.1504/IJGW.2011.03838.
3. B. Mohammed, C. Najiba, T. Rim, F. Haj Ammar, Z. Kamal, C. Hamid, Hydro-geochemical behaviour of two coastal aquifers under severe climatic and human constraints: comparative study between Essaouira basin in Morocco and Jeffara basin in Tunisia, Int. J. Hydrol. Sci. Technol., 2 (2012) 75–100.
4. A. Isaiah Sewanu, A.A. Davidson, Evaluating peri-urban market gardening and shallow well quality for irrigation: a case study from Lagos, Nigeria, Int. J. Environ. Sustainable Dev., 15 (2016) 107–128.
5. A.A. Raqya, Evolution institutionnelle et réglementaire de la gestion de l’eau en Tunisie. Vers une participation accrue des usagers de l’eau. L’avenir de l’agriculture irriguée en Méditerranée. Nouveaux arrangements institutionnels pour une gestion de la demande en eau, Cahors, France, 2006, ffcirad-00191075.
6. H.A. Jamila, F. Boutheina, B.M. Abdallah, O. Naceur, Characterization of recharge mechanisms and sources of groundwater salinization in Ras Jbel Coastal Aquifer (Northeast Tunisia) using hydrogeochemical tools, environmental isotopes, GIS, and statistics, J. Chem., 2017 (2017) 8610894, doi: 10.1155/2017/8610894.
7. N. Kamal, M.M. Masmoudi, B.M. Netij, Yield response of dripirrigated onion under full and deficit irrigation with saline water in arid regions of Tunisia, Agronomy, 2012 (2012) 562315, doi: 10.5402/2012/562315.
8. S. Muhammad Wakil, B. Muhammad, N. Kim Choom, A standard primary energy approach for comparing desalination processes, npj Clean Water, 1 (2019) 1–7.
9. S. Muhammad Wakil, B. Muhammad, S. Hyuk Soo, O. Seung Jin, N. Kim Choom, Desalination processes evaluation at common platform: a universal performance ratio (UPR) method, Appl. Therm. Eng., 134 (2018) 62–67.
10. S. Muhammad Wakil, B. Muhammad, A. Li, N. Kim Choom, Energy-water-environment nexus, Desalination, 413 (2017) 52–64.
11. K. Janusz, B. Mateusz, Analysis of increasing efficiency of modern combined cycle power plant: a case study, Energy, 153 (2018) 90–99, doi: 10.1016/j.energy.2018.04.030.
12. A.S. Khalid, S. Mohammed Rafi, A.S.A.H. Abdullah, A. Naser, Characterization and evaluation of the improved performance of modified reverse osmosis membranes by incorporation of various organic modifiers and SnO2 nanoparticles, J. Nanomater., 2015 (2015) 363175, doi: 10.1155/2015/363175.
13. E.Z. Mohammed Ramadane, D. Issam, J.K. Jean Robert, M. Charles, S. Naima, Potential of solar desalination for irrigation in Tunisia, La Houille Blanche, 6 (2020) 85–88.
14. Fichtner, Desalination Using Renewable Energy Final Report, MENA Regional Water Outlook, 2011, Part II.
15. N. Zeineddine, M. Ovidiu, Rainfall variability and trend analysis of annual rainfall in North Africa, Int. J. Atmos. Sci., 2016 (2016) 7230450, doi: 10.1155/2016/7230450.
16. D. Issam, G. Ali, Modelisation by SALTMOD of leaching fraction and crops rotation as relevant tools for salinity management in the irrigated area of Dyiar Al-Hujjej, Tunisia, Int. J. Comput. Inf. Technol., 3 (2014) 841–844.
17. H. Soumaya, H. Wafik, B. Salem, B.D. Hamed, Spatiotemporal groundwater level forecasting and monitoring using a neural network-based approach in a semi-arid zone, Int. J. Hydrol. Sci. Technol., 2 (2012) 342–361.
18. A. Ali, K.R. Atanda, T.E. Mohammed, E. Mohamed Ali, Batteryless PV desalination system for rural areas: a case study, J. Energy South Africa, 26 (2015) 29–37.
19. J. Mickeal, O. inshrah, H. Moran, M. Al Sharifa Hind, Q. Jason, Economic analysis of photovoltaic (PV) powered water pumping and desalination without energy storage for agriculture, Desalination, 387 (2016) 35–45.
20. S. Saleh, Reverse osmosis desalination powered by photovoltaic and solar Rankine cycle power systems: a review, Renewable Sustainable Energy Rev., 73 (2017) 789–797.
21. C. Frederica, D. Idiano, A multicriteria analysis of photovoltaic systems: energetic, environmental, and economic assessments, Int. J. Photoenergy, 2015 (2015) 627454, doi: 10.1155/2015/627454.
22. F. Hamid, I. Yusof, I. Zulfikar, A. Zainal, A. Zainal, A. Miskam, K. Abdullah, An experimental study of briquetting process of torrefied rubber seed kernel and palm oil shell, BioMed Res. Int., 2016 (2016) 1679734, doi: 10.1155/2016/1679734.
23. L. Ding, J. Xi, M. Lingyung, Y. En Ge, Minimizing investment risk of integrated rail and transit-oriented-development projects over years in a linear monocentric city, Discrete Dyn. Nat. Soc., 2016 (2016) 1840673, doi: 10.1155/2016/1840673.
24. M. Paul, S. Bruce, M. Besant, Sustaining public open spaces through water recycling for irrigation: developing decision support tools and framework, Int. J. Water, 3 (2007) 397–406.
25. A. Helmi, H. Souhir, Y. Hassen, Renewable energies in Tunisia: trends and competitiveness till 2030, Int. J. Renewable Energy Technol., 5 (2014) 261–280.
26. C. Wafa, C. Mohammed Thameur, Performance evaluation of condensation-irrigation solar system under arid climate conditions, Int. J. Energy Technol. Policy, 10 (2014) 145–160.
27. L. Seyed Mojtaba, Selection and economical evaluation of solar desalination technologies via DesalSolar software, Int. J. Energy Technol. Policy, 7 (2011) 489–502.
28. D. Issam, E.Z. Mohamed Ramadane, M. Charles, K. Jean Robert, K. Sabri, B.M. Anouar, Feasibility of water desalination for irrigation: the case of the coastal irrigated area of Dyiar-Al- Hujjej, Tunisia, Water Supply, 21 (2021) 24–45.
29. B. Mirza, S. Daria, H. Edward, The potential of concentrated solar power for remote mine sites in the Northern Territory, Australia, J. Solar Energy, 2015 (2015) 617356, doi: 10.1155/2015/617356.
30. S. Paola, F. Franco, F. Daniela, S. Elisa, M. Luca, J. David, New strategies and simulation tools to optically design a field of heliostats, Int. J. Photoenergy, 2013 (2013) 523947, doi: 10.1155/2013/523947.
31. G. Kacem, B. Yahia, Solar energy potential assessment in the Algerian South Area: case of Ghardaïa Region, J. Renewable Energy, 2013 (2013) 496348, doi: 10.1155/2013/496348.