Experimental Characterisation and Field Experience of a Reusable, Modified Polyurethane Foam for the Mechanical Clean-Up of Oil Spills on the Sea Surface

Niehaus, Daniel; Hofmann, Sebastian; Kumar, Srividya Bairamangala; Hoffmann, Marko; Cisneros-Aguirre, J.; Schlüter, Michael

doi:10.3390/jmse10101369

Cited by 4 publications

(1 citation statement)

References 19 publications

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“…This odor was so intense that it led to several instances of fainting among the populace. As a precautionary measure, residents were advised to remain indoors with their windows closed until the majority of the oil was cleared from the waterʹs surface using sponge reusable absorbents [25]. Within three days, these absorbents successfully mitigated the sanitary crisis.…”

Section: Description Of the Accidentmentioning

confidence: 99%

Integrated Application of Innovative Technologies for Oil Spill Remediation in Gran Tarajal Harbor: A Scientific Approach

Cisneros-Aguirre,

Afonso-Correa

2024

Preprint

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This study examines the recovery efforts at Gran Tarajal Harbor following a significant oil spill, employing innovative technologies. Initial response efforts were hampered by inadequate contingency plans and bureaucratic delays, underscoring the need for improved preparedness. Cleanup operations utilized advanced methods such as enhanced absorbent sponges, absorbent granulates, bioremediation with allochthonous species, and a combination of barriers and sponges. These technologies proved effective in minimizing environmental impact, reducing hydrocarbon concentrations in sediments from nearly 60,000 mg/kg to less than 1,600 mg/kg in seven months. Heavy metal analysis revealed lead and copper concentrations associated as well as with routine port activities, while mercury levels linked to the spill decreased over time. Tissue analysis indicated minimal contamination in local organisms, suggesting limited impact from the spill, and evaluation of the biological communities in sediments suggest an ecological recovery. Study underscores the importance of rapid response, advanced technologies, and detailed contingency plans tailored to each port. Despite the successful cleanup and ecosystem recovery, political and bureaucratic challenges remain significant obstacles to implementing these improved methods. The findings advocate for a re-evaluation of current oil spill response protocols to incorporate more effective, sustainable, and cost-efficient technologies, aligning with the principles of a circular economy.

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Section: Description Of the Accidentmentioning

confidence: 99%

Integrated Application of Innovative Technologies for Oil Spill Remediation in Gran Tarajal Harbor: A Scientific Approach

Cisneros-Aguirre,

Afonso-Correa

2024

Preprint

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A novel polyurethane-based sorbent material for oil spills management

de Folly d’Auris,

Rubertelli,

Taini

et al. 2023

Journal of Environmental Chemical Engineering

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Modified Kapok Fibers (Ceiba pentandra (L.) Gaerth) for Oil Spill Remediation

Oliveira,

Fonseca,

Bernardo

et al. 2024

Applied Sciences

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The search for efficient oil spill remediation techniques leads to the use of physical, chemical, and biological methods, featuring both natural and modified lipophilic materials. Kapok fibers (Ceiba pentandra (L.) Gaerth) have been studied as a result of their unusual natural oil sorption capacity, which can be improved even further through physical or chemical treatments that augment their rugosity and alter their functional properties. Furthermore, the exact role of fiber morphology is not completely clear regarding the sorption process. Hence, this study investigated the efficacy of kapok fibers using different treatments, based on chemical and physical approaches, and characterized using advanced techniques (FTIR, SEM, AFM), aiming to improve the understanding of application possibilities in oil contamination scenarios. The results indicate that treatments using a low thermal intensity and low concentration do not lead to variation in sorption properties nor in surface structural features. Fiber rugosity varied from 4.40 to 12.35 nm, whereas an excessive increase in roughness was observed when the material was subject to more extreme conditions, such as a temperature of 120 °C and high concentrations (2.0 M) of both acid or alkali, accompanied by a loss in functionality and affecting the material sorption capacity. Thus, the study provides conditions to suggest that these treatments are not necessary for this type of material when inserted into sorption processes.

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Experimental Characterisation and Field Experience of a Reusable, Modified Polyurethane Foam for the Mechanical Clean-Up of Oil Spills on the Sea Surface

Cited by 4 publications

References 19 publications

Integrated Application of Innovative Technologies for Oil Spill Remediation in Gran Tarajal Harbor: A Scientific Approach

Integrated Application of Innovative Technologies for Oil Spill Remediation in Gran Tarajal Harbor: A Scientific Approach

A novel polyurethane-based sorbent material for oil spills management

Modified Kapok Fibers (Ceiba pentandra (L.) Gaerth) for Oil Spill Remediation

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