References

  1. E. Khaka, Small islands, big problems, Our Planet, 9 (1998) 25–26.
  2. T. Falkland, Water resources issues of small island developing states, Natural Resour., 23 (1999) 245–260.
  3. B.C. Bates, Z.W. Kundzewicz, S. Wu, J.P. Palutik, Climate Change and Water, Technical Paper of the Intergovernmental Panel on Climate Change, 2008, pp. 33–48.
  4. S. Sözen, D. Orhon, H. Dincer, G. Ateşok, H. Baştürkçü, T. Yalçon, H. Öznesil, C. Karaca, B. Allı, H. Dulkadiroğlu, Resource recovery as a sustainable perspective of the CMC mining waste site in Northern Cyprus, Bull. Eng. Geol. Environ., 76 (2017) 1535–1547.
  5. Ministry of Agriculture and Natural Resources. Agricultural Master Plan. Turkish Republic of Northern Cyprus (2017) pp. 514 (in Turkish).
  6. H. Gökçekuş, TRNC’s Water Problems and Solutions: Importance of “The Water Supply Project from Turkey to Cyprus”. TRNC’s Water Law and Policies, 3th International Water Forum, Istanbul, Turkey. 2014.
  7. Ministry of Health and Environment. Environmental Master Plan, Turkish Republic of Northern Cyprus, 2nd Interim Report; I.T.U. Environmental Engineering Department, 1999 pp.297 (in Turkish).
  8. GHK, ECOLAS, IEEP, and CE., Strategic Evaluation on Environment and Risk Prevention Under Structural and Cohesion Funds for the period 2007–2013, Synthesis Report, 2006.
  9. J.T. Houghton, L.G. Meira Filho, B.A. Callander, N. Harris, A. Kattenberg, K. Maskell, Eds., Climate Change 1995, The Science of Climate Change, Cambridge University Press, 1996, 572 p.
  10. P.D. Jones, T.M.L. Wigley, G. Farmer, Marine and land temperature data sets: a comparison and a look at recent trends In Greenhouse-Gas-Induced Climatic Change, a Critical Appraisal of Simulations and Observations. M.E. Schlesinger (Ed), Elsevier, Amsterdam, 1991, pp. 153–172.
  11. A.H. Payab, U. Türker, Analyzing temporal–spatial characteristics of drought events in the northern part of Cyprus, Environ. Dev. Sustain., 20 (2018) 1553–1574.
  12. C. Norrant, A. Douguédroit, Monthly and daily precipitation trends in the Mediterranean (1950–2000), Theor. App. Clim., 83 (2006) 89–106.
  13. H. Gökçekuş, S. Gücel, U. Türker, Effects of climate change on North Cyprus forests, Transactions of the International Academy of Science, International Conference, Oslo 2009, Innsbruck, 2010.
  14. H. Gökçekuş, S. Kabdaşlı, I. Kabdaşlı, U. Türker, T. Olmez, K. Olcay, Pollution of coastal region impacted by acid mine drainage in Morphou Bay, Northern Cyprus, J. Environ. Sci. Heal. A, A38(8) (2003) 1445–1457.
  15. Ministry of Environment and Natural Resources Department of Meteorology, The Annual report, Climate of Cyprus, Department of Meteorology, Nicosia Turkish Republic of Northern Cyprus, 2016.
  16. H. Gökçekuş, C. Atalar, M. Sıdal, Water reservoir development in North Cyprus. Proceedings of the International Conference on Water Problems in the Mediterranean countries. Lefkoşa, TRNC: Near East University, 5(1) (1998) 293–310.
  17. U. Türker, B.R. Hansen, River Basin Management and Characterization of Water Bodies in North Cyprus, 10th International Congress on Advances in Civil Engineering,Ankara, Turkey, 17–19 October, (2012) 1–10.
  18. O. Gökmenoğlu, B. Erduran, C. Özgür, Ö.F. Tamgaç, KKTC Hidrojeolojisi, Maden TetkikveAramaGenelMüdürlüĝü, Ankara, 2004. (In Turkish).
  19. A.A. AJamal, U. Türker, Assessment of the regional water balance of the limestone subaquifers of Cyprus, J. Earth. Syst. Sci., 124 (2018) 541–551.
  20. U. Türker, B.S. Alsalabi, T. Rızza, Water table fluctuation analyses and associated empirical approach to predict spatial distribution of water table at Yeşilköy/AgiosAndronikos aquifer, Environ. Earth Sci., 69 (2013) 63–75.
  21. U. Türker, Alternative sewerage solution: Condominial method and its application, Phys. Chem. Earth, Parts A/B/C, 36(5–6) (2011) 179–86.
  22. H. Gökçekuş, Su kaynakları yönetiminin KKTC açısından önemi. KTMMOB İnşaat Mühendisleri Odası Bülteni, 4 (2002) 53–60 (in Turkish).
  23. G. Elkiran, Z. Ongul, Implications of excessive water withdrawals to the environment of Northern Cyprus, Water Environ. J., 23 (2009) 145–154.
  24. H. Gökçekuş, V. Doyuran, Optimum management of the groundwater resources of Morphou basin TRNC, Bull. Geol., 9 (1993) 421–428.
  25. H. Gökçekuş, Hydrogeological and hydrochemical evaluation of the Morphou groundwater basin (Turkish Republic of Northern Cyprus). Phd Thesis, Middle East Technical University, Department of Geological Engineering, Ankara (1990) pp. 179.
  26. UNDP, Survey of groundwater and mineral resources of Cyprus. A technical method prepared for the Government of Cyprus by United Nations, 1970, 233 pp.
  27. World Health Organization, Guidelines for Drinking-Water Quality (1959) pp. 130.
  28. TSE, “Içme suları (Drinking Water)” Turkısh Standard Institution, Ankara, Turkey 266 (1986) pp. 97.
  29. D. Orhon, H. Gökçekuş, S. Sözen, Environmental basis of sustainable tourism along sensitive coastal areas, Proceedings, Survival and Sustainability Environmental Concerns in the 21st Century, H. Gökçekuş, U. Türker, J.W. LeMoreauxeds Spinger-Verlag, Berlin, 2011 pp. 235–241.
  30. N. Artan, D. Orhon, S. Sözen, Conceptual basis of wastewater nitrogen removal in sensitive coastal areas, Water Sci. Technol., 32 (1995) 77–84.
  31. S. Sözen, E. Görgün, N. Artan, D. Orhon, A merit of SBR technology for wastewater management in sensitive coastal areas, Fresenius Environ. Bull., 6 (1997) 190–195.
  32. D. Orhon, S. Sözen, E. Görgün, E. Ubay Çokgör, N. Artan, Technological aspects of wastewater management in coastal tourist areas, Water Sci. Technol., 39 (1999) 177–184.
  33. H. Gökçekuş,“TRNC Drinking Water Supply Project Will Be the Project of the Century”, OSRAM Water Research Program, 2012, (in Turkish).
  34. E. Gies, Northern Cyprus sees hope in water pipeline, The New York Times, April 3, (2013).
  35. P.H. McGauhey, Engineering Management of Water Quality, McGraw-Hill Book Co., New York (1968) pp. 295.
  36. D. Orhon, Evolution of the activated sludge process: The first 50 years, J. Chem. Technol. Biotechnol., 90 (2015) 608–640.
  37. D. Orhon, S. Sözen, S. Teksoy Basaran, B. Alli, Super fast membrane bioreactor—transition to extremely low sludge ages for waste recycle and reuse with energy conservation, Desal. Water Treat., 57(45) (2016) 21160–21172.
  38. S. Sözen, I. Pala-Ozkok, M. Aysel, S. Teksoy Basaran, A. Akarsubasi, I. Ergal, H. Kurt, E. Ubay Cokgor, D. Orhon, Performance and microbial behavior of submerged membrane bioreactor at extremely low sludge ages, Desal. Water Treat., 56 (2015) 862–874.
  39. N. Yagci, M. Konuk, S. Sozen, S. Meriç, D. Orhon, Chemically enhanced membrane process–towards a novel sewage treatment concept to potentially replace biological processes, Desal. Water Treat., 57(35) (2016) 16238–16249.
  40. E.B. Muller, A.H. Stouthamer, H.W.V. van Verseveld, D.H. Eikelboom, Aerobic domestic wastewater treatment in a pilot plant with complete sludge retention by cross-flow filtration, Water Res., 29 (1995) 1179–1189.
  41. M. Sarioglu, G. Insel, N. Artan, D. Orhon Model evaluation of simultaneous nitrification and denitrification in a membrane bioreactor operated without an anoxic reactor, J. Membr. Sci., 337 (2009) 17–27.
  42. G. Insel, S.M. Hocaoğlu, E.U. Cokgor, D. Orhon Modelling the effect of biomass induced oxygen transfer limitations on the nitrogen removal performance of membrane bioreactor, J. Membr. Sci., 368 (2011) 54–63.
  43. S.M. Hocaoglu, G. Insel, E.U. Cokgor, D. Orhon, Effect of sludge age on simultaneous nitrification and denitrification in membrane reactor, Biores. Technol., 102 (2011) 6665–6672.
  44. S.M. Hocaoglu, E. Atasoy, A. Baban, D. Orhon, Modeling biodegradation characteristics of grey water in membrane reactor, J. Membr. Sci., 429 (2013) 139–146.
  45. S. Sözen, S.T. Başaran, I. Ergal, C. Karaca, B. Allı, C. Razbonyalı, E.U. Cokgor, D. Orhon, A novel process maximizing energy conservation potentials of biological treatment: Super fast membrane reactor, J. Membr. Sci., 545 (2018) 337–347.
  46. S.J. Judd, A review of fouling of membrane bioreactors in sewage treatment, Water Sci. Technol., 49 (2004) 229–235.
  47. U. Türker, M. Okaygün, S.J. Almaqadma, Impact of anaerobic lagoons on the performance of BOD and TSS removals at the Haspolat (Mia Milia) Wastewater Treatment Plant, Desalination, 249 (2009) 403–410.
  48. G. Tchobanoglous, D. Schroeder, Water Quality, Addison Wesley Publ. Co., California (1985) pp. 768.
  49. P.L. McCarty, J. Bae, J. Kim, Domestic wastewater treatment as a net energy producer-Can this be achieved? Environ. Sci. Technol., 45 (2011) 7100–7106.
  50. D. Orhon, S. Sözen, B. Allı, Comment on “Bioflocculation management through high-rate contact stabilization: A promising technology to recover organic carbon from low strength wastewater by R. Rahman, F.A. Meerburg, S. Ravadagundhi, B. Wett, J. Jimenez, G. Bott, A. Al-Omari, R. Riffat, R. Murthy, H. DeClippeler [Water Research, 104 (2016) 485–496]”, Water Res. 126 (2017) 524–526.
  51. M. Inguanzo, A. Dominguez, J.A. Menéndez, C.G. Blanco, J.J. Pis, On the pyrolysis of sewage sludge: the influence of pyrolysis conditions on solid, liquid and gas fractions. J. Anal. Appl. Pyrol., 63 (2002) 209–222.
  52. A. Dominguez, Production of biofuels by high-temperature pyrolysis of sewage sludge using conventional and microwave heating, Biores. Technol., 97 (2006) 1185–1193.
  53. M.K. Hossain, V. Strezov, P.F. Nelson, Thermal characteristics of the products of wastewater sludge pyrolysis, J. Anal. Appl. Pyrol., 85 (2009) 442–446.
  54. C. Karaca, H.C. Okutan, S. Sozen, D. Orhon, Energy recovery with syngas production from sewage sludge using high rate pyrolysis at high temperature, Proc. SEEP, (2015) 11–14.
  55. C. Karaca, S. Sözen, D. Orhon, H.C. Okutan, High temperature of sewage sludge as a sustainable process for energy recovery, Waste Manage., 78 (2018) 217–226.