Optimizing the conditions for devulcanization of rubber waste by Thiobacillus Ferroxidans / Ainie Asyikin Ahmad … [et al.]
Vulcanized rubber is chemically stable. It is difficult to combine it into new material because bonding between the new material and the vulcanized rubber is weak. Present devulcanization process is costly, hence only a small percentage of waste rubber can be recycles, thus a need for a cost effecti...
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2008
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my.uitm.ir.682402023-08-17T06:28:24Z https://ir.uitm.edu.my/id/eprint/68240/ Optimizing the conditions for devulcanization of rubber waste by Thiobacillus Ferroxidans / Ainie Asyikin Ahmad … [et al.] Ahmad, Ainie Asyikin Yusof, Faridah Abdul Rahim, Ahmad Nazree Shahari@Ansari, Khater Sharifa Ahmad Barkat, Anumsima Bacteria Polymers and polymer manufacture Vulcanized rubber is chemically stable. It is difficult to combine it into new material because bonding between the new material and the vulcanized rubber is weak. Present devulcanization process is costly, hence only a small percentage of waste rubber can be recycles, thus a need for a cost effective devulcanization process would permit a substantially greater portion of waste vulcanized rubber to be recycled. Enzymatic devulcanization has been successfully attempted by using bacteria Thiobacillus ferroxidans. This bacteria releases tetrathionate hydrolase that helps to alter the sulphur chains that crosslinked rubber molecules in vulcanized rubber products, after which the rubber surface is now ready to accept virgin rubber during recycling process. Factorial design was applied to determine the optimal physical condition and medium composition for minimum doubling time and maximum protein secretion and accumulation by Thiobacillus ferroxidans. Six independent variables, temperature, initial pH, KH2P04, (NH4)2S04, MgS04 and CaCI2, in the growth medium were tested. KH2P04, pH, (NH4)2S04, MgS04 was found to promote positive correlation with the minimum doubling time and maximum protein secretion and accumulation. The optimal composition of the growth medium to achieve the minimum doubling time and maximum protein secretion and accumulation was determined as follows (g/l): KH2P04 = 5, (NH4)2S04 = 7.5, MgS04= 0.25, CaCI2= 0.25 at initial pH of 4 and 25°C. The corresponding doubling time and protein concentration were 25.92 hours and 67.5µg/ml, which are about 2.0-fold decrease and 2.88-fold increase, respectively, compared with those using the conventional T. ferroxidans growth medium. 2008 Conference or Workshop Item PeerReviewed text en https://ir.uitm.edu.my/id/eprint/68240/1/68240.PDF Optimizing the conditions for devulcanization of rubber waste by Thiobacillus Ferroxidans / Ainie Asyikin Ahmad … [et al.]. (2008) In: Proceedings STSS 2008 Broadening Horizons Through Research Science and Technology, 3-4 June 2008, M.S Garden Hotel Kuantan, Pahang. |
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Bacteria Polymers and polymer manufacture Ahmad, Ainie Asyikin Yusof, Faridah Abdul Rahim, Ahmad Nazree Shahari@Ansari, Khater Sharifa Ahmad Barkat, Anumsima Optimizing the conditions for devulcanization of rubber waste by Thiobacillus Ferroxidans / Ainie Asyikin Ahmad … [et al.] |
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Vulcanized rubber is chemically stable. It is difficult to combine it into new material because bonding between the new material and the vulcanized rubber is weak. Present devulcanization process is costly, hence only a small percentage of waste rubber can be recycles, thus a need for a cost effective devulcanization process would permit a substantially greater portion of waste vulcanized rubber to be recycled. Enzymatic devulcanization has been successfully attempted by using bacteria Thiobacillus ferroxidans. This bacteria releases tetrathionate hydrolase that helps to alter the sulphur chains that crosslinked rubber molecules in vulcanized rubber products, after which the rubber surface is now ready to accept virgin rubber during recycling process. Factorial design was applied to determine the optimal physical condition and medium composition for minimum doubling time and maximum protein secretion and accumulation by Thiobacillus ferroxidans. Six independent variables, temperature, initial pH, KH2P04, (NH4)2S04, MgS04 and CaCI2, in the growth medium were tested. KH2P04, pH, (NH4)2S04, MgS04 was found to promote positive correlation with the minimum doubling time and maximum protein secretion and accumulation. The optimal composition of the growth medium to achieve the minimum doubling time and maximum protein secretion and accumulation was determined as follows (g/l): KH2P04 = 5, (NH4)2S04 = 7.5, MgS04= 0.25, CaCI2= 0.25 at initial pH of 4 and 25°C. The corresponding doubling time and protein concentration were 25.92 hours and 67.5µg/ml, which are about 2.0-fold decrease and 2.88-fold increase, respectively, compared with those using the conventional T. ferroxidans growth medium. |
| format |
Conference or Workshop Item |
| author |
Ahmad, Ainie Asyikin Yusof, Faridah Abdul Rahim, Ahmad Nazree Shahari@Ansari, Khater Sharifa Ahmad Barkat, Anumsima |
| author_facet |
Ahmad, Ainie Asyikin Yusof, Faridah Abdul Rahim, Ahmad Nazree Shahari@Ansari, Khater Sharifa Ahmad Barkat, Anumsima |
| author_sort |
Ahmad, Ainie Asyikin |
| title |
Optimizing the conditions for devulcanization of rubber waste by Thiobacillus Ferroxidans / Ainie Asyikin Ahmad … [et al.] |
| title_short |
Optimizing the conditions for devulcanization of rubber waste by Thiobacillus Ferroxidans / Ainie Asyikin Ahmad … [et al.] |
| title_full |
Optimizing the conditions for devulcanization of rubber waste by Thiobacillus Ferroxidans / Ainie Asyikin Ahmad … [et al.] |
| title_fullStr |
Optimizing the conditions for devulcanization of rubber waste by Thiobacillus Ferroxidans / Ainie Asyikin Ahmad … [et al.] |
| title_full_unstemmed |
Optimizing the conditions for devulcanization of rubber waste by Thiobacillus Ferroxidans / Ainie Asyikin Ahmad … [et al.] |
| title_sort |
optimizing the conditions for devulcanization of rubber waste by thiobacillus ferroxidans / ainie asyikin ahmad … [et al.] |
| publishDate |
2008 |
| url |
https://ir.uitm.edu.my/id/eprint/68240/1/68240.PDF https://ir.uitm.edu.my/id/eprint/68240/ |
| _version_ |
1775626347008229376 |
| score |
13.160551 |