Biomineralization of PET (Polyethylene terephthalate) plastic through Sporosarcina species for plastic waste management / Muhammad Kamran Shahzad
Material type:
TextIslamabad : SMME- NUST; 2023Description: 48p. ; 30cmSubject(s): MS Biomedical Sciences (BMS)DDC classification: 610 Online resources: Click here to access online Summary: Purpose: This research work was done as an essential assignment to complete my thesis. It was
aimed at finding an indigenous Sporosarcina. species that can produce calcium carbonate
precipitates both in absence and presence of PET flakes through ureolysis. So that this strain in
future can be used in treating PET flakes that make these flakes compatible with cement concrete
(when added in concrete) and decrease the gaps between the PET flakes and cement matrix.
Materials and Methods: Three Sporosarcina closely related species bacteria strains (NCCP2331, NCCP-2222 and NCCP-2716) and one already reported of producing calcium carbonate
precipitates through ureolysis Bacillus subtilus were provided by National culture collection of
Pakistan. The experiment that was designed included mixing of these strains overnight grown
culture, CPM (Calcium carbonate precipitation media) that included ammonium chloride,
sodium bicarbonate, calcium chloride and urea and in one case 1g PET flakes were added while
in other case no flakes. Negative control was also run along the experiment in that flask there
was not any bacteria colony inoculated. Then the precipitates were analyzed by XRD, FTIR and
SEM to confirm their structure.
Results: All three strains had shown ureolytic activity and had produced calcium carbonate
precipitates both in the absence and presence of PET flakes. Among these three strains NCCP2331 had shown the more capability to produce calcium carbonate precipitates and its
precipitates were more crystalline while NCCP-2716 and NCCP-2222 precipitates were more
amorphous. XRD, FTIR and SEM analysis confirmed the structure of calcium carbonate crystals.
SEM analysis also confirmed the formation of biofilm and calcium carbonate layer over the PET
flakes.
Conclusion: Among three strains NCCP-2331 had shown the best capability to produce calcium
carbonate precipitates when it was provided calcium carbonate precipitation media. That
indigenous strain can be used in future for biotreatment of plastic flakes while adding these
flakes in cement matrix.
Keywords: NCCP (National culture collection of Pakistan), PET (Polyethylene terephthalate),
Calcium carbonate, cement matrix.
| Item type | Current location | Home library | Call number | Status | Date due | Barcode | Item holds |
|---|---|---|---|---|---|---|---|
Thesis
|
School of Mechanical & Manufacturing Engineering (SMME) | School of Mechanical & Manufacturing Engineering (SMME) | 610 (Browse shelf) | Available | SMME-TH-940 |
Purpose: This research work was done as an essential assignment to complete my thesis. It was
aimed at finding an indigenous Sporosarcina. species that can produce calcium carbonate
precipitates both in absence and presence of PET flakes through ureolysis. So that this strain in
future can be used in treating PET flakes that make these flakes compatible with cement concrete
(when added in concrete) and decrease the gaps between the PET flakes and cement matrix.
Materials and Methods: Three Sporosarcina closely related species bacteria strains (NCCP2331, NCCP-2222 and NCCP-2716) and one already reported of producing calcium carbonate
precipitates through ureolysis Bacillus subtilus were provided by National culture collection of
Pakistan. The experiment that was designed included mixing of these strains overnight grown
culture, CPM (Calcium carbonate precipitation media) that included ammonium chloride,
sodium bicarbonate, calcium chloride and urea and in one case 1g PET flakes were added while
in other case no flakes. Negative control was also run along the experiment in that flask there
was not any bacteria colony inoculated. Then the precipitates were analyzed by XRD, FTIR and
SEM to confirm their structure.
Results: All three strains had shown ureolytic activity and had produced calcium carbonate
precipitates both in the absence and presence of PET flakes. Among these three strains NCCP2331 had shown the more capability to produce calcium carbonate precipitates and its
precipitates were more crystalline while NCCP-2716 and NCCP-2222 precipitates were more
amorphous. XRD, FTIR and SEM analysis confirmed the structure of calcium carbonate crystals.
SEM analysis also confirmed the formation of biofilm and calcium carbonate layer over the PET
flakes.
Conclusion: Among three strains NCCP-2331 had shown the best capability to produce calcium
carbonate precipitates when it was provided calcium carbonate precipitation media. That
indigenous strain can be used in future for biotreatment of plastic flakes while adding these
flakes in cement matrix.
Keywords: NCCP (National culture collection of Pakistan), PET (Polyethylene terephthalate),
Calcium carbonate, cement matrix.
There are no comments on this title.