Рубрика: 

ПОЛИМЕРНЫЕ СОРБЕНТЫ ДЛЯ СБОРА НЕФТЕПРОДУКТОВ С ПОВЕРХНОСТИ ВОДОЁМОВ: ОБЗОР АНГЛОЯЗЫЧНОЙ ЛИТЕРАТУРЫ ЗА 2000–2017 гг. (ЧАСТЬ 1)

Аннотация

Проведён поиск и анализ научной литературы на английском языке за 2000–2017 гг., посвящённой проблеме разработки сорбентов на основе полимерных материалов, пригодных для сбора разлитых нефтепродуктов с поверхности водоёмов. Выделены три наиболее многочисленных класса полимерных сорбционных материалов (целлюлозные материалы, акрилатные сополимеры и синтетические каучуки), даны характеристики предлагаемых нефтесорбентов. Оценена перспективность применения сорбентов указанных классов для очистки поверхностей водоёмов от нефтяных разливов.

DOI: 
10.18500/1816-9775-2018-18-1-36-44
Литература

1. Asadpour R., Sapari N. B., Tuan Z. Z., Jusoh H., Riahi A., Uka O. K. Application of sorbent materials in oil spill management : a review // Caspian J. Appl. Sci. Res. 2013. Vol. 2, № 2. P. 46–58. 

2. Jin H. X., Dong B., Wu B, Zhou M. H. Oil Absorptive Polymers: Where Is the Future? // Polymer-Plastics Technol. Eng. 2012. Vol. 51, № 2. P. 154–159.

3. Adebajo M. O., Frost R. L., Kloprogge J. T, Carmody O., Kokot S. Porous Materials for Oil Spill Cleanup : A Review of Synthesis and Absorbing Properties // J. Porous Mat. 2003. Vol. 10. P. 159–170.

4. Zhao J., Xiao C., Feng Y., Xu N. A Review : Polymethacrylate Fibers as Oil Absorbents // Polym. Rev. 2013. Vol. 53, № 4. P. 527–545. 

5. Teas C., Kalligeros S., Zanikos F., Stoumas S., Lois E., Anastopoulos G. Investigation of the effectiveness of absorbent materials in oil spills clean up // Desalination. 2001. Vol. 140, № 3. P. 259–264. 

6. Deschamps G., Caruel H., Borredon M.-E., Bonnin C., Vignoles C. Oil Removal from Water by Selective Sorption on Hydrophobic Cotton Fibers. 1. Study of Sorption Properties and Comparison with Other Cotton Fiber-Based Sorbents // Environ. Sci. Technol. 2003. Vol. 37, № 5. P. 1013–1015. 

7. Lim T. T., Huang X. Evaluation of kapok (Ceiba pentandra (L.) Gaertn.) as a natural hollow hydrophobic-oleophilic fi brous sorbent for oil spill cleanup // Chemosphere. 2007. Vol. 66, № 5. P. 955–963. 

8. Abdullah M. A., Rahmah A. U., Man Z. Physicochemical and sorption characteristics of Malaysian Ceiba pentandra (L) Gaertn as natural oil sorbent // J. Hazard. Mat. 2010. Vol. 177, № 1. P. 683–691. 

9. Wang J., Zheng Y., Wang A. Investigation of acetylated kapok fi bers on the sorption of oil in water // J. Env. Sci. 2013. Vol. 25, № 2. P. 246–253. 

10. Wang J. T., Zheng Y. A., Wang A. Q. Super-hydrophobic kapok fi ber oil-absorbent: preparation and high oil absorbency // Chem. Eng. J. 2012. Vol. 213. P. 1–7. 

11. Hussein M., Amer A. A., Sawsan I. I. Heavy oil spill cleanup using law grade raw cotton fi bers: Trial for practical application // J. Petrol. Technol. Alt. Fuels. 2011. Vol. 2, № 8. P. 132–140. 

12. Korhonen J. T., Kettunen M., Ras R.H.A., Ikkala O. Hydrophobic nanocellulose aerogels as fl oating, sustainable, reusable, and recyclable oil absorbents // ACS Appl. Mat. and Interfaces. 2011. Vol. 3, № 6. P. 1813–1816. 

13. Payne K. C., Jackson C. D., Aizpurua C. E., Rojas O. J., Hubbe M. A. Oil spills abatement: factors affecting oil uptake by cellulosic fi bers // Env. Sci. Technol. 2012. Vol. 46, № 14. P. 7725–7730. 

14. Singh V., Kendall R. J., Hake K., Ramkumar S. Crude oil sorption by raw cotton // Ind. Eng. Chem. Res. 2013. Vol. 52, № 18. P. 6277–6281. 

15. Wang B., Rengasamy K., Lu X., Xuan J., Leung M.K.H. Hollow carbon fi bers derived from natural cotton as effective sorbents for oil spill cleanup // Ind. Eng. Chem. Res. 2013. Vol. 52, № 51. P. 18251–18261. 

16. Liu H., Geng B., Chen Y., Wang H. Review on the Aerogel-Type Oil Sorbents Derived from Nanocellulose // ACS Sustainable Chem. Eng. 2016. Vol. 5, № 1. P. 49–66. 

17. Keshawy M., El-Moghny T. A., Abdul-Raheim A.-R. M., Kabel K. I., El-Hamouly S. H. Synthesis and characterization of oil sorbent based on Hydroxypropyl Cellulose Acrylate // Egyptian J. Petrol. 2013. Vol. 22, № 4. P. 539–548. 

18. Li D., Zhu F. Yi Z., Li J., Na P., Wang N. Preparation and Characterization of Cellulose Fibers from Corn Straw as Natural Oil Sorbents // Ind. Eng. Chem. Res. 2012. Vol. 52, № 1. P. 516–524. 

19. Maimaiti H., Arken K., Wumaier M., Wushuer L. Oil absorbency of cellulose/butylmethacrylate graft polymer fi bers // Iranian Polym. J. 2014. Vol. 23, № 9. P. 671–678. 

20. Maimaiti H., Arken K., Wumaier M. Preparation and properties of cellulose-based oil absorbents // Mat. Res. Innov. 2015. Vol. 19, № sup 8. P. S8-434–S8-439. 

21. Hubbe M. A., Rojas O. J., Fingas M., Gupta B. S. Cellulosic substrates for removal of pollutants from aqueous systems : A Review. 3. Spilled oil and emulsifi ed organic liquids // BioResources. 2013. Vol. 8, № 2. P. 3038–3097. 

22. He J., Ding L., Deng J.P., Yang W. T. Oil-absorbent beads containing β-cyclodextrin moieties : Preparation via suspension polymerization and high oil absorbency // Polym. for Adv. Technol. 2012. Vol. 23, № 4. P. 810–816. 

23. Farag R. K., El-Saeed S. M. Synthesis and Characterization of Oil Sorbers Based on Docosanyl Acrylate and Methacrylates Copolymers // J. Appl. Polym. Sci. 2008. Vol. 109. P. 3704–3713. 

24. Ju H., McClockey B., Sagle A., Wu Y., Kusuma V., Freeman B. Crosslinked poly(ethylene oxide) fouling resistant coating materials for oil/water separation // J. Membr. Sci. 2008. Vol. 307, № 2. P. 260–267. 

25. Ji N., Chen H., Yu M., Qu R., Wang C. Synthesis of high oil-absorption resins of poly(methyl methacrylate-butyl methacrylate) by suspended emulsion polymerization // Polym. Adv. Technol. 2011. Vol. 22. P. 1898–1904. 

26. Ding L., Li Y., Jia D., Denga J., Yang W. β-Cyclodextrinbased oil-absorbents : Preparation, high oil absorbency and reusability // Carbohydr. Polym. 2011. Vol. 83, № 4. P. 1990–1996. 

27. Atta A. M., Abdel-Rahman A. A.-H., Hamad N. A. Modifi cation and Application of Poly(Ethylene Terephthalate) Nonwoven Fiber Using Octadecyl Acrylate and Acrylic Acid as Oil Sorbers // J. Dispers. Sci. Technol. 2012. Vol. 33. P.1492–1502. 

28. Atta A. M., Brostow W., Datashvili T., El-Ghazawy R. A., Hagg Lobland H. E., Hasana A.-R. M., Perez J. M. Porous polyurethane foams based on recycled poly(ethylene terephthalate) for oil sorption // Polym. Intern. 2013. Vol. 62, № 1. P. 116–126. 

29. Atta A. M., Brostow W., Hagg Lobland H. E., Hasanab A.-R.M., Perez J. M. Porous polymer oil sorbents based on PET fi bers with crosslinked copolymer coatings // RSC Adv. 2013. Vol. 3. P. 25849–25857. 

30. Tan Z., Liang Y., Chen H., Wang D. Synthesis of Hexadecyl Methacrylate/Methyl Methacrylate Copolymer by High Internal Phase Emulsion Template and its High Oil-Absorbing Properties // Sep. Sci. Technol. 2013. Vol. 48, № 15. P. 2338–2344. 

31. Atta A. M., Brostow W., Lobland H. E. H., Hasana A.-R. M., Perez J. Porous crosslinked copolymers of octadecyl acrylate with acrylic acid as sorbers for crude petroleum spills // Polym. Intern. 2013. Vol. 62. P. 1225–1235.

32. Shan G. R., Xu P.-Y., Weng Z.-X., Huang Z.-M. Oilabsorption function of physical crosslinking in the high-oil-absorption resins // J. Appl. Polym. Sci. 2003. Vol. 90, № 14. P. 3945–3950. 

33. Zhou M. H., Cho W. J. Oil absorbents based on styrenebutadiene rubber // J. Appl. Polym. Sci. 2003. Vol. 89, № 7. P. 1818–1824. 

34. Ceylan D., Dogu S., Karacik B., Yakan S. D. Evaluation of butyl rubber as sorbent material for the removal of oil and polycyclic aromatic hydrocarbons from seawater // Env. Sci. Technol. 2009. Vol. 43, № 10. P. 3846– 3852. 

35. Karakutuk I., Okay O. Macroporous rubber gels as reusable sorbents for the removal of oil from surface waters // Reactive and Functional Polymers. 2010. Vol. 70, № 9. P. 585–595. 

36. Hu Y., Liu X., Zou J., Gu T., Chai W., Li H. Graphite/ Isobutylene-isoprene Rubber Highly Porous Cryogels as New Sorbents for Oil Spills and Organic Liquids // ACS Appl. Mat. and Interfaces. 2013. Vol. 5, № 16. P. 7737–7742. 

37. Riyajan S. A., Keawittarit P. A novel natural rubber-graftcassava starch foam for oil/gasohol absorption // Polym. Intern. 2016. Vol. 65, № 5. P. 491–502. 

38. Lin C., Huang C. L., Shern C. C. Recycling waste tire powder for the recovery of oil spills // Resources, Conservation and Recycling. 2008. Vol. 52, № 10. P. 1162–1166. 

39. Lin C., Hong Y. J., Hu A. H. Using a composite material containing waste tire powder and polypropylene fi ber cut end to recover spilled oil // Waste Management. 2010. Vol. 30, № 2. P. 263–267.

Краткое содержание (на английском языке): 
Полный текст в формате PDF (на русском языке):