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Dredged Sediments are One of the Valuable Resources: A Review

Yıl 2022, Cilt: 4 Sayı: 2, 324 - 331, 04.07.2022

Öz

Worldwide, the preservation of non-renewable resources and recycling waste materials in the potential applications are gaining global attention. In this context, rigorous research studies focus on finding solutions to reuse and recycle various waste materials. Among the different types of waste materials, the dredged sediments are one of the valuable resources having potential to replenish the depletion of natural resources by reusing and recycling as secondary raw material in various applications. The process of sediments dredging is an essential and routine activity for ports and harbors to maintain sustainable navigation systems in the sea and river environment; on the other hand, continuous accumulation of contaminated dredged sediment harms the environment, ecology, and marine ecosystems. Managing the dredging process and dredged sediment is a fundamentally important aspect of marine and river ecosystems. The technology development to recycle dredged sediments as secondary raw materials can supplement natural resources and it would be a viable solution to eliminate environmental pollution, alleviate the problem of land scarcity for waste dumping, and partially can meet the demand of resource gap. This article presents the state of the art of recycling and valorization opportunities of dredged sediments, which leads to replenishing the depletion of natural resources and increasing global sustainability.

Kaynakça

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  • Bagarani, M., De Vincenzo, A., Ievoli, C., Molino, B., 2020. The Reuse of Sediments Dredged from Artificial Reservoirs for Beach Nourishment: Technical and Economic Feasibility. Sustainability 12 (17), 6820.
  • Balkaya, M., 2019. Beneficial use of dredged materials in geotechnical engineering. In Recycling and Reuse Approaches for Better Sustainability (pp. 21-38), Springer, Cham.
  • Baptist, M.J., Gerkema, T., Van Prooijen, B.C., Van Maren, D.S., Van Regteren, M., Schulz, K., Colosimo, I., Wroom, J., van Kessel, T., Grasmeijer, B., Willemsen, P., Elschot, K., de Groot, A.V., Cleveringa, J., van Eekelen, E.M.M., Schuurman, F., de Lange, H.J., van Puijenbroek, M.E.B., 2019. Beneficial use of dredged sediment to enhance salt marsh development by applying a 'Mud Motor'. Ecological Engineering 127, 312-323.
  • Baptist, M., Vroom, J., Willemsem, P., Puijenbroek, M., van Maren, B., van Steijn, P., van Regteren, M., Colosimo, I., 2019. Beneficial Use of Dredged Sediment to Enhance Salt Marsh Development by Applying A ‘Mud Motor’: Evaluation Based on Monitoring. Wageningen Marine Researcch Rapport C088/19 & Deltares1209751.
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  • Bianchini, A., Cento, F., Guzzini, A., Pellegrini, M., Saccani, C., 2019. Sediment management in coastal infrastructures: Techno-economic and environmental impact assessment of alternative technologies to dredging. Journal of Environmental Management 248, 109332.
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Yıl 2022, Cilt: 4 Sayı: 2, 324 - 331, 04.07.2022

Öz

Kaynakça

  • Abidi, I., Benamara, L., Correia, A.A.S., Pinto, M.I.M., Cunha, P.P., 2021. Characterization of dredged sediments of Bouhanifia dam: potential use as a raw material. Arabian Journal of Geosciences 14 (23), 1-16.
  • Achour, R., Abriak, N.E., Zentar, R., Rivard, P., Gregoire, P., 2014. Valorization of unauthorized sea disposal dredged sediments as a road foundation material. Environmental Technology 35 (16), 1997-2007.
  • Ahadi, K., Sullivan, K.M., Mitchell, K.N., 2018. Budgeting maintenance dredging projects under uncertainty to improve the inland waterway network performance. Transportation Research Part E: Logistics and Transportation Review 119, 63-87.
  • Aouad, G., Laboudigue, A., Gineys, N., Abriak, N.E., 2012. Dredged sediments used as novel supply of raw material to produce Portland cement clinker. Cement and Concrete Composites 34 (6), 788-793.
  • APPA, 2009. Administraç~ao dos Portos de Paranagu a E Antonina 2009. Site. http:// www.portosdoparana.pr.gov.br/.
  • APPA, 2012. Administraç~ao dos Portos de Paranagu a E Antonina 2012. Site. http:// www.portosdoparana.pr.gov.br/.
  • Babcock, R., Smith, L., 2002. Effects of sedimentation on coral settlement and survivorship. In Proceedings of the Ninth International Coral Reef Symposium, Bali, 23-27 October 2000, (Vol. 1, pp. 245-248).
  • Bagarani, M., De Vincenzo, A., Ievoli, C., Molino, B., 2020. The reuse of sediments dredged from artificial reservoirs for beach nourishment: technical and economic feasibility. Sustainability 12 (17), 6820.
  • Bagarani, M., De Vincenzo, A., Ievoli, C., Molino, B., 2020. The Reuse of Sediments Dredged from Artificial Reservoirs for Beach Nourishment: Technical and Economic Feasibility. Sustainability 12 (17), 6820.
  • Balkaya, M., 2019. Beneficial use of dredged materials in geotechnical engineering. In Recycling and Reuse Approaches for Better Sustainability (pp. 21-38), Springer, Cham.
  • Baptist, M.J., Gerkema, T., Van Prooijen, B.C., Van Maren, D.S., Van Regteren, M., Schulz, K., Colosimo, I., Wroom, J., van Kessel, T., Grasmeijer, B., Willemsen, P., Elschot, K., de Groot, A.V., Cleveringa, J., van Eekelen, E.M.M., Schuurman, F., de Lange, H.J., van Puijenbroek, M.E.B., 2019. Beneficial use of dredged sediment to enhance salt marsh development by applying a 'Mud Motor'. Ecological Engineering 127, 312-323.
  • Baptist, M., Vroom, J., Willemsem, P., Puijenbroek, M., van Maren, B., van Steijn, P., van Regteren, M., Colosimo, I., 2019. Beneficial Use of Dredged Sediment to Enhance Salt Marsh Development by Applying A ‘Mud Motor’: Evaluation Based on Monitoring. Wageningen Marine Researcch Rapport C088/19 & Deltares1209751.
  • Baver, W.H., 2015. Dredging of Navigational Channels. International Compendium of Coastal Engineering, 339.
  • Bianchini, A., Cento, F., Guzzini, A., Pellegrini, M., Saccani, C., 2019. Sediment management in coastal infrastructures: Techno-economic and environmental impact assessment of alternative technologies to dredging. Journal of Environmental Management 248, 109332.
  • Birrell, C.L., McCook, L.J., Willis, B.L., 2005. Effects of algal turfs and sediment on coral settlement. Marine Pollution Bulletin 51 (1-4), 408-414.
  • Blažauskas, N., Grigelis, A., Živilė Gelumbauskaitė, L., Gulbinskas, S., Suzdalev, S., Ferrarin, C., 2015. Towards sustainable use of marine resources in the south-eastern Baltic Sea (Lithuania): A review. Baltica 28 (2), 179-188.
  • Bolam, S.G., Rees, H.L., Somerfield, P., Smith, R., Clarke, K. R., Warwick, R.M., Atkins, M., Garnacho, E., 2006. Ecological consequences of dredged material disposal in the marine environment: a holistic assessment of activities around the England and Wales coastline. Marine Pollution Bulletin 52 (4), 415-426.
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  • Cappucci, S., Vaccari, M., Falconi, M., Tudor, T., 2019. Sustainable management of sedimentary resources: a case study of the Egadi project. Environmental Engineering & Management Journal (EEMJ) 18 (10), 317-328.
  • Cappuyns, V., Deweirt, V., Rousseau, S., 2015. Dredged sediments as a resource for brick production: Possibilities and barriers from a consumers’ perspective. Waste Management 38, 372-380.
  • Carpenter, A., Lozano, R., Sammalisto, K., Astner, L., 2018. Securing a port's future through Circular Economy: Experiences from the Port of Gävle in contributing to sustainability. Marine Pollution Bulletin 128, 539-547.
  • CETMEF, 2012: Institute for inland and maritime waterways, France (Centre d `etudes techniques et fluviales CETMEF, 2012).
  • Çevikbilen, G., Başar, H.M., Karadoğan, Ü., Teymur, B., Dağlı, S., Tolun, L., 2020. Assessment of the use of dredged marine materials in sanitary landfills: A case study from the Marmara Sea. Waste Management 113, 70-79.
  • Cezarino, L.O., Liboni, L. B., Stefanelli, N.O., Oliveira, B.G., Stocco, L.C., 2019. Diving into emerging economies bottleneck: Industry 4.0 and implications for circular economy. Management Decision 59 (8), 1841-1862.
  • Chaudhry, M.A. 2012. Worldwide experience of sediment flushing through reservoirs. Mehran University Research Journal of Engineering and Technology 31 (3), 395-408.
  • Chiu, C.F., Zhu, W., Zhang, C.L., 2008. Yielding and shear behaviour of cement-treated dredged materials. Engineering Geology 103, 1-12.
  • Cox, J.R., Huismans, Y., Knaake, S.M., Leuven, J.R.F.W., Vellinga, N.E., van der Vegt, M., Hoitink, F., Kleinhans, M.G., 2021. Anthropogenic effects on the contemporary sediment budget of the lower Rhine‐Meuse Delta channel network. Earth's Future, e2020EF001869, 1-22.
  • De Vincenzo, A., Covelli, C., Molino, A. J., Pannone, M., Ciccaglione, M., Molino, B., 2019. Long-term management policies of reservoirs: Possible reuse of dredged sediments for coastal nourishment. Water 11 (1), 15.
  • Deibel, I., Lampe, C., Ulbricht, J.P., Cnudde, T., van Dessel, G., 2007. In: Bortone G, Palumbo L (eds) Beneficial use, sustainable management of sediment resources: sediment and dredged material treatment. Elsevier, New York, pp 119-132.
  • Dubois, V., Abriak, N.E., Zentar, R., Ballivy, G., 2009. The use of marine sediments as a pavement base material. Waste Management 29, 774-782.
  • EPA, 2007. Identifying, planning, and financing beneficial use projects using dredged material, beneficial use planning manual. US Environmental Protection Agency and US Army Corps of Engineers., EPA842-B-07-001, Washington, DC.
  • Erftemeijer, P.L., Riegl, B., Hoeksema, B.W., Todd, P.A., 2012. Environmental impacts of dredging and other sediment disturbances on corals: a review. Marine Pollution Bulletin 64 (9), 1737-1765.
  • Fan, Z., Wang, W., Tang, C., Li, Y., Wang, Z., Lin, S., Zeng, F., 2019. Targeting Remediation Dredging by Ecological Risk Assessment of Heavy Metals in Lake Sediment: A Case Study of Shitang Lake, China. Sustainability 11 (24), 7251.
  • Ferrans, L., Jani, Y., Burlakovs, J., Klavins, M., Hogland, W., 2021. Chemical speciation of metals from marine sediments: Assessment of potential pollution risk while dredging, a case study in southern Sweden. Chemosphere, 263, 128105.
  • Ghaly, K., Synnot, L., Wilkins, P., 2019. Long term maintenance dredging program management. In Australasian Coasts and Ports 2019 Conference: Future directions from 40 [degrees] S and beyond, Hobart, 10-13 September 2019 (p. 444). Engineers Australia.
  • Grubb, D.G., Davis, A., Sands, S.C., Carnivale M., Wartman, J., Gallagher, P.M., 2006. Field evaluation of crushed glass-dredged material blends. Journal of Geotechnical and Geoenvironmental Engineering 132 (5), 577,590.
  • Harrington, J., Murphy, J., Coleman, M., Jordan, D., Debuigne, T., Szacsuri, G., 2016. Economic modelling of the management of dredged marine sediments. Geology Geophysics and Environment 42 (3), 311-324.
  • Houlihan, M., Bilgen, G., Dayioglu, A.Y., Aydilek, A.H., 2021. Geoenvironmental Evaluation of RCA-Stabilized Dredged Marine Sediments as Embankment Material. Journal of Materials in Civil Engineering, 33(1), 04020435.
  • IBAMA, 2013. Available in: http://www.ibama.gov.br/publicadas/emitida-licencaprevia-do-ibama-para-dragagem-do-porto-de-paranagua-e-antonina.
  • IADC, 2015. International Association of Dredging Companies, 2015.
  • Indian Infrastructure (Dredging), 2019. Available in: https://indiainfrastructure.com/events/10th-annual-conference-on-dredging-in-india/.
  • Kamali, S., Bernard, F., Abriak, N.E., Degrugilliers, P., 2008. Marine dredged sediments as new materials resource for road construction. Waste Management 28, 919-928.
  • Kay, H., Volker, K., 2002. Brick production with dredged harbour sediments. An industrial-scale experiment. Bremen. University of Bremen. Germany Waste Management 22 (5), 521e530.
  • Kvasnicka, J., Stylianou, K. S., Nguyen, V. K., Huang, L., Chiu, W. A., Burton Jr, G. A., Semrau, J., Jolliet, O., 2019. Human health benefits from fish consumption vs. risks from inhalation exposures associated with contaminated sediment remediation: Dredging of the Hudson River. Environmental Health Perspectives 127 (12), 127004.
  • Limeira, J., Agullo, L., Etxeberria, M., 2012. Dredged marine sand as construction material. European Journal of Environmental and Civil Engineering 16 (8), 906-918.
  • Lirer, S., Liguori, B., Capasso, I., Flora, A., Caputo, D., 2017. Mechanical and chemical properties of composite materials made of dredged sediments in a fly-ash based geopolymer. Journal of Environmental Management 191, 1-7.
  • Liu, C., Shao, S., Shen, Q., Fan, C., Zhou, Q., Yin, H., Xu, F., 2015. Use of multi-objective dredging for remediation of contaminated sediments: a case study of a typical heavily polluted confluence area in China. Environmental Science and Pollution Research 22 (22), 17839-17849.
  • Liu, M., Chen, J., Sun, X., Hu, Z., Fan, D., 2019. Accumulation and transformation of heavy metals in surface sediments from the Yangtze River estuary to the East China Sea shelf. Environmental Pollution 245, 111-121.
  • Manap, N., Voulvoulis, N., 2015. Environmental management for dredging sediments–The requirement of developing nations. Journal of Environmental Management 147, 338-348.
  • Manap, N., Voulvoulis, N., 2016. Data analysis for environmental impact of dredging. Journal of Cleaner Production 137, 394-404.
  • Marmin, S., Dauvin, J., Lesueur, P., 2014. Ocean & coastal management collaborative approach for the management of harbour-dredged sediment in the bay of seine (France). Ocean Coast Manage 102, 328-339.
  • Marmin, S., Dauvin, J.C., Lesueur, P., 2014. Collaborative approach for the management of harbour-dredged sediment in the Bay of Seine (France). Ocean & Coastal Management 102, 328-339.
  • Martens, C., van den Eynde, D., Lauwaert, B., van Hoey, G., Devriese, L., 2018. Dredging and dumping. In: Devriese, L., Dauwe, S., Verleye, T., Pirlet, H., Mees, J., (Eds.) Knowledge Guide Coast and Sea 2018 - Compendium for Coast and Sea, p 69-77.
  • Mekuria, D.M., Kassegne, A.B., Asfaw, S.L., 2020. Little Akaki River sediment enrichment with heavy metals, pollution load and potential ecological risks in downstream, Central Ethiopia. Environmental Systems Research 9 (1), 1-14.
  • Mir, B.A., Kumar, P., Kumar, A., Kumar, D., Kumar, M., Mazumder, M., 2011. Geotechnical evaluation of dredged material from Dal Lake as a construction material. Proceedings of Indian Geotechnical Conference, p 725-728.
  • Miraoui, M., Zentar, R., Abriak, N.E., 2012. Road material basis in dredged sediment and basic oxygen furnace steel slag. Construction and Building Materials 30, 309-319.
  • Mitchell, S.B., 2020. Sediment transport and Marine Protected Areas. In Marine Protected Areas (pp 587-598), Elsevier.
  • Mymrin, V., Stella, J.C., Scremim, C.B., Pan, R.C., Sanches, F. G., Alekseev, K., Pedroso, D.E., Molinetti, A., Fortini, O.M., 2017. Utilization of sediments dredged from marine ports as a principal component of composite material. Journal of Cleaner Production 142, 4041-4049.
  • Norén, A., Fedje, K. K., Strömvall, A. M., Rauch, S., Andersson-Sköld, Y., 2020. Integrated assessment of management strategies for metal-contaminated dredged sediments–What are the best approaches for ports, marinas and waterways? Science of the Total Environment 716, 135510.
  • Onorati, F., Mugnai, C., Pulcini, M., Gabellini, M., 2013. A framework for the integrated assessment and management of dredged materials in Italy: a case study based on the application of Local Sediment Quality Guidelines. Journal of Soils and Sediments 13 (2), 474-487.
  • OSPAR, 2017. Oslo and Paris Conventions, 2017. Convention for the Protection of the Marine Environment of the North-East Atlantic. Pellegrini, M., Aghakhani, A., Gaeta, M. G., Archetti, R., Guzzini, A., Saccani, C., 2021. Effectiveness Assessment of an Innovative Ejector Plant for Port Sediment Management. Journal of Marine Science and Engineering 9 (2), 197.
  • Peruzzi, E., Macci, C., Doni, S., Zelari, L., Masciandaro, G., 2020. Co-composting as a Management Strategy for Posidonia oceanica Residues and Dredged Sediments. Waste and Biomass Valorization 11 (9), 4907-4919.
  • PIANC, 2011. Permanent International Association of Navigation Congresses, 2011.
  • Rakshith, S., Singh, D.N. 2017. Utilization of dredged sediments: Contemporary issues. Journal of Waterway, Port, Coastal and Ocean Engineering 143 (3), 04016025.
  • Reine, K., Clarke, D., Ray, G., Dickerson, C., 2013. Fishery resource utilization of a restored estuarine borrow pit: a beneficial use of dredged material case study. Marine Pollution Bulletin 73, 115-128.
  • Said, I., Missaoui, A., Lafhaj, Z., 2015. Reuse of Tunisian marine sediments in paving blocks: factory-scale experiment. Journal of Cleaner Production 102, 66-77.
  • Sheehan, C., Harrington, J., 2012. Management of dredged material in the Republic of Ireland – a review. Waste Management 32, 1031-1044.
  • Siham, K., Fabrice, B., Edine, A.N., Patrick, D., 2008. Marine dredged sediments as new materials resource for road construction. Waste Management 28 (5), 919-928.
  • Slimanou, H., Bouguermouh, K., Bouzidi, N., 2019. Synthesis of geopolymers based on dredged sediment in calcined and uncalcined states. Materials Letters 251, 188-191.
  • Slimanou, H., Eliche-Quesada, D., Kherbache, S., Bouzidi, N., 2020. Harbor Dredged Sediment as raw material in fired clay brick production: Characterization and properties. Journal of Building Engineering 28, 101085.
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  • Storlazzi, C.D., Norris, B.K., Rosenberger, K.J., 2015. The influence of grain size, grain color, and suspended-sediment concentration on light attenuation: Why fine-grained terrestrial sediment is bad for coral reef ecosystems. Coral Reefs 34 (3), 967-975.
  • Tilai, L., Liming, C., Xiangyu, G., Lei, D., 2019. Analysis of Sediment Deposition Downstream Tidal Sluice of Estuary. In International Conference on Asian and Pacific Coasts (pp. 649-655). Springer, Singapore.
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  • Ulibarri, N., Goodrich, K.A., Wagle, P., Brand, M., Matthew, R., Stein, E.D., Sanders, B.F., 2020. Barriers and opportunities for beneficial reuse of sediment to support coastal resilience. Ocean & Coastal Management 195, 105287.
  • Vogt, C., Peck, E., Hartman, G., 2018. Dredging for Navigation, for Environmental Cleanup, and for Sand/Aggregates. In Handbook on Marine Environment Protection (pp. 189-213). Springer, Cham.
  • Wahab, M. A. A., Fromont, J., Gomez, O., Fisher, R., Jones, R., 2017. Comparisons of benthic filter feeder communities before and after a large-scale capital dredging program. Marine Pollution Bulletin 122 (1-2), 176-193.
  • Walling, D.E., Webb, B.W., 1996. Erosion and sediment yield: a global overview. IAHS Publications-Series of Proceedings and Reports-Intern Assoc Hydrological Sciences 236, 3-20.
  • Wang, L., Chen, L., Tsang, D.C., Li, J-S., Baek, K., Hou, D., Ding, S., Poon, C-S., 2018. Recycling dredged sediment into fill materials, partition blocks, and paving blocks: Technical and economic assessment. Journal of Cleaner Production 199, 69-76.
  • Yoobanpot, N., Jamsawang, P., Poorahong, H., Jongpradist, P., Likitlersuang, S., 2020. Multiscale laboratory investigation of the mechanical and microstructural properties of dredged sediments stabilized with cement and fly ash. Engineering Geology 267, 105491.
  • Yoobanpot, N., Jamsawang, P., Simarat, P., Jongpradist, P., Likitlersuang, S., 2020. Sustainable reuse of dredged sediments as pavement materials by cement and fly ash stabilization. Journal of Soils and Sediments 20, 3807-3823.
  • Zhang, H., Walker, T. R., Davis, E., Ma, G., 2019. Ecological risk assessment of metals in small craft harbour sediments in Nova Scotia, Canada. Marine Pollution Bulletin 146, 466-475.
  • Zheng, Z.J., Lin, M.Y., Chiueh, P.T., Lo, S L. 2019. Framework for determining optimal strategy for sustainable remediation of contaminated sediment: A case study in Northern Taiwan. Science of The Total Environment 654, 822-831.
Toplam 83 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yer Bilimleri ve Jeoloji Mühendisliği (Diğer)
Bölüm Review
Yazarlar

Bishnu Pada Bose Bu kişi benim

Moumita Dhar Bu kişi benim

Yayımlanma Tarihi 4 Temmuz 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 4 Sayı: 2

Kaynak Göster

AMA Bose BP, Dhar M. Dredged Sediments are One of the Valuable Resources: A Review. IJESKA. Temmuz 2022;4(2):324-331.