A new biocomposite was preformed between bacterial cellulose(BC)pellicle and polyethylene glycol(PEG)at different concentrations(0%,5,10%,15%and 20%)and different molecular weight(600,1000 and 2000).The structure and ...A new biocomposite was preformed between bacterial cellulose(BC)pellicle and polyethylene glycol(PEG)at different concentrations(0%,5,10%,15%and 20%)and different molecular weight(600,1000 and 2000).The structure and mechanical properties of BC/PEG biocomposite were investigated.The results indicated that the properties of the BC were improved by the addition of PEG.The morphology of the BC and BC/PEG blend was examined by a scanning electron microscope(SEM).These showed that PEG was coated with a large pore size fibril on the BC and the BC/PEG was dense with an even and smooth surface.All the Fourier transform infrared spectroscopy(FT-IR)thermograms of BC/PEG showed the same functional groups as typical BC and PEG.The DSC result showed that the thermal stability improved which might be associated with a weak interaction between BC and PEG,and may be useful for applications.展开更多
Hydrogen production from palm oil mill effluent (POME) by Thermoanaerobacterium thermosaccharolyticum PSU-2 was investigated both in batch and continuous reactors using anaerobic sequencing batch reactor (ASBR) and co...Hydrogen production from palm oil mill effluent (POME) by Thermoanaerobacterium thermosaccharolyticum PSU-2 was investigated both in batch and continuous reactors using anaerobic sequencing batch reactor (ASBR) and continuous stirred tank reactor (CSTR). The hydrogen production determined from batch experiment of POME at an inoculum size of 0%, 10%, 20% and 30% (v/v) was 161, 201, 246 and 296 mL H2/g-COD with COD removal efficiency of 21%, 23%, 23% and 23%, respectively. Continuous hydrogen production was start-up with 30% (v/v) inoculum in both ASBR and CSTR reactors and more than 30% COD removal could be obtained at HRT of 4 days, corresponding to OLR of 11.3 g COD/ L·day. Similar hydrogen production rates of 2.05 and2.16 LH2/L. day were obtained from ASBR and CSTR, respectively. COD removal efficiency of ASBR was 37.7%, while it was 44.8% for CSTR. However, ASBR was stable in term of alkalinity, while the CSTR was stable in term of hydrogen production, soluble metabolites concentration and alkalinity. Therefore, the CSTR was found to be more stable in hydrogen production than ASBR under the same OLR.展开更多
文摘A new biocomposite was preformed between bacterial cellulose(BC)pellicle and polyethylene glycol(PEG)at different concentrations(0%,5,10%,15%and 20%)and different molecular weight(600,1000 and 2000).The structure and mechanical properties of BC/PEG biocomposite were investigated.The results indicated that the properties of the BC were improved by the addition of PEG.The morphology of the BC and BC/PEG blend was examined by a scanning electron microscope(SEM).These showed that PEG was coated with a large pore size fibril on the BC and the BC/PEG was dense with an even and smooth surface.All the Fourier transform infrared spectroscopy(FT-IR)thermograms of BC/PEG showed the same functional groups as typical BC and PEG.The DSC result showed that the thermal stability improved which might be associated with a weak interaction between BC and PEG,and may be useful for applications.
文摘Hydrogen production from palm oil mill effluent (POME) by Thermoanaerobacterium thermosaccharolyticum PSU-2 was investigated both in batch and continuous reactors using anaerobic sequencing batch reactor (ASBR) and continuous stirred tank reactor (CSTR). The hydrogen production determined from batch experiment of POME at an inoculum size of 0%, 10%, 20% and 30% (v/v) was 161, 201, 246 and 296 mL H2/g-COD with COD removal efficiency of 21%, 23%, 23% and 23%, respectively. Continuous hydrogen production was start-up with 30% (v/v) inoculum in both ASBR and CSTR reactors and more than 30% COD removal could be obtained at HRT of 4 days, corresponding to OLR of 11.3 g COD/ L·day. Similar hydrogen production rates of 2.05 and2.16 LH2/L. day were obtained from ASBR and CSTR, respectively. COD removal efficiency of ASBR was 37.7%, while it was 44.8% for CSTR. However, ASBR was stable in term of alkalinity, while the CSTR was stable in term of hydrogen production, soluble metabolites concentration and alkalinity. Therefore, the CSTR was found to be more stable in hydrogen production than ASBR under the same OLR.