English
Русский 40-49 p.
The paper presents the results of the study of the possibility of using peanuts waste processing as a sorption material. The literature data on the use of numerous materials as sorbents are given. Physico-chemical and structural-morphological features of peanut shells were investigated. The object of the study was methylene blue dye as a widely known and used substance, and the sorption capacity for methylene blue is an important characteristic of industrial sorbents. The adsorption capacity of the material is calculated and the adsorption isotherm is constructed. The sorption capacity of the original peanut shell by methylene blue was 0.22 mmol/g.
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13. Oil Spill Cleanup using Stearic-acid-modified Natural Cotton / N.T. Hoai, N.N. Sang, T.D. Hoang and ets. // Environ. Sci. 2016. N7. P. 2498 – 2504.
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21. Select metal adsorption by activated carbon made from peanut shells Kermit Wilson a, Hong Yang a, Chung W. Seoa,*, Wayne E. Marshall Bioresource Technology 97 (2006). 2266 – 2270
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23. Sverguzova S.V., Sapronova ZH.A., Svyatchenko A.V., Tom Otiti. Adsorbciya veretennogo masla nativnym i termomodificirovannym listovym opadom kashtanov // Stroitel'nye materialy i izdeliya. 2018. Tom 1. №1. S. 4 – 11.
24. Smolenskaya L.M., Rybina S.YU., Rybin V.G., Litvin P.V. Issledovanie sorbcii ionov nikelya voloknistymi adsorbentami // Stroitel'nye materialy i izdeliya. 2018. Tom 1. №1. S. 12 – 20.
25. Sverguzova S.V., SHajhiev I.G., Tom Otiti, Sapronova ZH.A. Povyshenie prochnosti i morozostojkosti keramicheskih izdelij pri ispol'zovanii melassnoj bardy v kachestve plastificiruyushchej dobavki // Stroitel'nye materialy i izdeliya. 2018. Tom 1. №2. S. 19 – 29.
2. Sapronova Zh.A., Svergusova S.V., Fomina E.V. Nanocomposite carbon-bearing sorption material // Advances in Engineering Research. 2017. V. 133. P. 728 – 733.
3. EckhardWorch. Adsorption Technology in Water Treatment Fundamentals, Processes, and Modeling 2012 Walter de Gruyter GmbH & Co. KG, Berlin/Boston. 319 r.
4. Moreno-Castilla C. Adsorption of organic molecules from aqueous solutionson carbon materials // Carbon. 2004. N42. P. 83 – 94.
5. Issledovanie kinetiki processov adsorbcii fenola othodami valyal'no-vojlochnogo proizvodstva / R.Z. Galimova, I.G. SHajhiev, G.A. Almazova i dr. // Vestnik BGTU im. V.G. SHuhova. 2016. №10. S. 179 – 184.
6. Blagadyreva A.M. Ochistka stochnyh vod ot nefteproduktov othodami saharnoj promyshlennosti: avtoref. dis. ... kand. tekhn. nauk: 03.00.16. Tul. gos. un-t. Tula, 2009. 20 s.
7. Teoreticheskie osnovy ochistki vody / N.I. Kulikov, A.YA. Najmanov, N.P. Omel'chenko i dr. Doneck: Noulidzh, 2009. 298 s.
8. Pintor A.M.A. Use of cork byproducts as sorbents for oil and grease removal from industrial wastewaters: PhD dissertation. Department of chemical engineering, faculty of engineering, university of Porto, 2014. 158 p.
9. Sapronova ZH.A. Razrabotka kompleksnoj tekhnologii ochistki stochnyh vod neftekhimicheskih predpriyatij na osnove aktivirovannyh othodov saharnoj promyshlennosti na primere belgorodskoj oblasti: dis. … d-ra tekhn. nauk: 03.02.08. Ufa, 2016. 341 s.
10. Domracheva V.A. Resursosberegayushchaya tekhnologiya ochistki stochnyh vod ot nefteproduktov / V.A. Domracheva, V.V. Trusova // Vodoochistka. – 2015. – №5. – S. 51-54.
11. Maebh A.G., Clifford E., Healy M.G. The potential for the use of waste products from a variety of sectors in water treatment processes // Journal of Cleaner Production. 2016. 137. P. 788 – 802.
12. Fetisov R.O. Sorbcionnaya ochistka stochnyh vod ot SPAV othodom proizvodstva saharnoj promyshlennosti – saturacionnym osadkom: dis. … kand.tekhn. nauk:03.02.08. Belgorod, 2015. 148 s.
13. Oil Spill Cleanup using Stearic-acid-modified Natural Cotton / N.T. Hoai, N.N. Sang, T.D. Hoang and ets. // Environ. Sci. 2016. N7. P. 2498 – 2504.
14. Sposob modifikacii nefteulavlivayushchih sorbentov na osnove natural'nyh organicheskih materialov / M.F. Sotirov, A.V. Basov, V.V. Gorelov i dr. // Vestnik Permskogo gosudarstvennogo tekhnicheskogo universiteta. Himicheskayatekhnologiyaibiotekhnologiya. 2011. №12. S. 198 – 201.
15. Suteu D., Malutan T., Bilba D. Agricultural waste corn cob as a sorbent for removing reactive dye orange 16: equilibrium and kinetic study // Cellulose Chem. Technol. 2011. N45 (5-6). P. 413 – 420.
16. Annunciado T.R., Sydenstricker T.H.D., Amico S.C. Experimental investigation of various vegetable fibers as sorbent materials for oil spills // Marine Pollution Bulletin. 2005. N50. P. 1340 – 1346.
17. SHajhiev I.G., Stepanova S.V., SHajhieva K.I. Issledovanie hvoi sosnovyh derev'ev v kachestve sorbcionnyh materialov dlya udaleniya nefti i masel s vodnoj poverhnosti // Vestnik tekhnologicheskogo universiteta. 2017. T. 20. №3. S. 183 – 186.
18. Alekseeva A.A., Stepanova S.V. Primenenie listovogo opada dlya udaleniya plenki nefti s poverhnosti vody // Vestnik Kazanskogo tekhnologicheskogo universiteta. 2014. №22. S. 304 – 306.
19. Alekseeva A.A. Primenenie listovogo opada v kachestve osnovy sorbcionnogo materiala pri likvidacii avarijnyh razlivov nefti s poverhnosti vody: dis. … kand. tekhn. nauk: 03.02.08. Kazan', 2017. 159 s.
20. Spirin M.N., Sverguzova S.V. Ochistka maslosoderzhashchih stochnyh vod othodami proizvodstva sahara // Vestnik BGTU im. V.G. SHuhova. 2014. №5. S. 187 – 191.
21. Select metal adsorption by activated carbon made from peanut shells Kermit Wilson a, Hong Yang a, Chung W. Seoa,*, Wayne E. Marshall Bioresource Technology 97 (2006). 2266 – 2270
22. Peanut Shell Activated Carbon: Adsorption Capacities for Copper(II), Zinc(II), Nickel(II) and Chromium(VI) Ions from Aqueous Solutions / Luis C. Romero, Antonio Bonomo and Elio E. Gonzo // Adsorption Science & Technology. V. 22. N3. 2004. 10 p.
23. Sverguzova S.V., Sapronova ZH.A., Svyatchenko A.V., Tom Otiti. Adsorbciya veretennogo masla nativnym i termomodificirovannym listovym opadom kashtanov // Stroitel'nye materialy i izdeliya. 2018. Tom 1. №1. S. 4 – 11.
24. Smolenskaya L.M., Rybina S.YU., Rybin V.G., Litvin P.V. Issledovanie sorbcii ionov nikelya voloknistymi adsorbentami // Stroitel'nye materialy i izdeliya. 2018. Tom 1. №1. S. 12 – 20.
25. Sverguzova S.V., SHajhiev I.G., Tom Otiti, Sapronova ZH.A. Povyshenie prochnosti i morozostojkosti keramicheskih izdelij pri ispol'zovanii melassnoj bardy v kachestve plastificiruyushchej dobavki // Stroitel'nye materialy i izdeliya. 2018. Tom 1. №2. S. 19 – 29.