References

  1. U.B. Celebi, F. Tolga, A. Vardar, N. Vardar, Multimedia Pollutant and their Effects on the Environment and Waste Management Practice in Turkish Shipyards, Green Energy Technol. Global Warming, Chapter 39, Springer, Boston, MA, 2009, pp. 579–590.
  2. H.T. Nøst, K.A. Halse, S. Randall, R.A. Borgen, M. Schlabach, A. Paul, A. Rahman, K. Breivik, High concentrations of organic contaminants in air from ship breaking activities in Chittagong, Bangladesh, Environ. Sci. Technol., 49 (2015) 11372–11380.
  3. N. Vardar, Pollutant Sources in the Shipbuilding and Repair Industry, Ship Building Industry, Turkish Shipbuilding Association, Turkey, 2004.
  4. D. Βuruiana, Development of Waste Management Systems in an Integrated Shipyard, TEHNOMUS - New Technologies and Products in Machine Manufacturing Technologies, 2016.
  5. National Shipbuilding Research Program (NSRP), Air Quality Best Management Practice (AQBMP) Resource Document for Shipyards, E.U., 1995.
  6. National Shipbuilding Research Program (NSRP), Solid Waste Segregation and Recycling, E.U., 1998.
  7. National Shipbuilding Research Program (NSRP), Cost- Effective Clean Up of Spent Grit, E.U., 2000.
  8. G. Neşer, D. Ünsalan, N. Tekoğul, F. Stuer-Lauridsen, The shipbreaking industry in Turkey: environmental, safety and health issues, J. Cleaner Prod., 16 (2008) 350–358.
  9. B. Kura, R. Tadimalla, Minimization and Treatment of Shipyard Wastewater, Treatment of Regulated Discharges from Shipyards and Drydocks, 1999, pp. 77–90.
  10. S.M. Reddy, S. Basha, V. Sravan Kumar, H. Joshi, G. Ramachandraiah, Distribution, enrichment and accumulation of heavy metals in coastal sediments of Alang–Sosiya ship scrapping yard, India, Mar. Pollut. Bull., 48 (2004) 1055–1059.
  11. A.N. Siddiquee, S. Parween, A.M.M. Quddus, P. Barua, Heavy Metal Pollution in Sediments at Ship Breaking Area of Bangladesh, in: V. Subramanian, Ed., Coastal Environments: Focus on Asian Coastal Regions, Springer, India, 2012, pp. 78–87. Doi: 10.1007/978-90–481-3002-3_6. Originally published in the Asian J. Water, Environ. Pollut., 6 (2009) 7–12.
  12. S. Pierucci, D. Bombardi, A. Concu, A. Lamballi, G. Lamballi, G. Lugli, An Innovative Sustainable Process for VOCs Recovery from Spray Paint Booths, Energy, 30 (2005) 1377–1386.
  13. P.G. Vlachos, Shipbuilding Economics and Strategy, J & J Hellas, Piraeus, 2002, pp. 64–75.
  14. Environmental Study of the Shipyard Neorio Syros, Syros Island, Greece, 2005.
  15. U.B. Celebi, N. Vardar, Wastes and pollutant sources resulted from shipbuilding industry in Turkey, Ovidius Univ. Annu. Sci. J., Mech. Eng. Ser., 8 (2006) 24–30.
  16. L. Malherbe, C. Mandin, VOC Emissions During Outdoor Ship Painting and Health Risk Assessment, First International Conference on Harbors and Air, Italy, 2005.
  17. D. Austin, R. Benze, B. Kura, Recent Advances in Closed Loop Abrasive Blasting Ship Production Symposium, Boston, MA, September 2002.
  18. Environmental Protection Agency (EPA), Profile of the Shipbuilding and Repair Industry, E.U., 1999.
  19. U.B. Celebi, N. Vardar, Investigation of VOC emissions from indoor and outdoor painting processes in shipyards, Atmos. Environ., 42 (2008) 5685–5695.
  20. G. Papamanolis, Shipyards Waste and Sustainable Management, Case study “Neorion Shipyard”, Master Thesis “Waste Management”, School of Science and Technology, Hellenic Open University Greece, Patra, Greece, 2017.
  21. B. Kura, S. Lacoste, Typical Waste Streams in a Shipbuilding Facility, Proc. Air Waste Management Association’s 89th Annual Meeting & Exhibition, Nashville, TN, 1996.
  22. E.M. Stewart, R. Smith, The Effects of Regulating the Use of TBT-Based Antifouling Paints on TBT Contamination, Treatment of Regulated Discharges from Shipyards and Drydocks, 1999, pp. 217–222.
  23. A. Tewari, H. Joshi, R. Trivedi, V. Sravankumar, C. Raghunathan, Y. Khambhaty, O. Kotiwar, S. Mandal, The effect of ship scrapping industry and its associated wastes on the biomass production and biodiversity of biota in situ condition at Alang, Mar. Pollut. Bull., 42 (2001) 461–468.
  24. C.Y. Song, J.H. Woo, S.H. Park, I.S. Kim, A study on the treatment of antifouling paint waste from shipyard, Mar. Pollut. Bull., 51 (2005) 1048–1053.
  25. S. Vreysen, A. Maes, H. Wullaert, Removal of organotin compounds, Cu and Zn from shipyard wastewaters by adsorption – flocculation: a technical and economical analysis, Mar. Pollut. Bull., 56 (2008) 106–115.
  26. T.J. Fox, T. Beacham, C. Gary Schafran, Michael A. Champ, Advanced Technologies for Removing TBT from Ship Washdown and Drydock Runoff Wastewaters, Treatment of Regulated Discharges from Shipyards and Drydocks, 1999, pp. 63–72.
  27. http://www.neorion-holdings.gr/Syros.html, Website of the “Neorion Syros” Shipyard, 2018.
  28. A.J. Morrissey, J. Browne, Waste management models and their application to sustainable waste management, Waste Manage., 24 (2004) 297–308.
  29. S. Zuin, E. Belac, B. Marzi, Life cycle assessment of shipgenerated waste management of Luka Koper, Waste Manage., 29 (2009) 3036–3046.
  30. Z. Du, S. Zhang, Q. Zhou, K.F. Yuen, Y.D. Wong, Hazardous materials analysis and disposal procedures during ship recycling, Resour. Conserv. Recycl., 131 (2018) 158–171.
  31. J.K. Choi, D. Kelley, S. Murphy, D. Thangamani, Economic and environmental perspectives of end-of-life ship management, Atmos. Environ. Recycl., 107 (2016) 82–91.
  32. A. Kotrikla, Environmental management aspects for TBT antifouling wastes from the shipyards, J. Environ. Manage., 90 (2009) S77–S85.