The study aimed to investigate the efficiency of piggery wastewater treatment by the surface flow constructed wetland with three different grass species; bulrush (Scirpus spp.), cattail (Typha angustifoliaL.), and vetiver grass (Vetiveria zizanioides L.). All pilot units were used for wastewater treatment by the flowing surface water system, giving a system carrying capacity of several 0.18 m3 d-1 of HLR with a 5 day hydraulic retention time (HRT). The results showed that the cattail pilot showed improvement in several wastewater quality indicators: biochemical oxygen demand (BOD), chemical oxygen demand (COD) and total kjeldahl nitrogen (TKN) with efficiencies of 80.59, 84.11 and 88.08 %, respectively. The vetiver grass was most efficient of the three grasses in treating total phosphorus (TP). The efficiency of constructed wetland treatment using bulrush and cattail for TP was not significantly different. The piggery wastewater treatment with a 5 day HRT was able to reduce the dirtiness in wastewater but ultimately was unable to meet the wastewater quality standard. Thus, the periods for hydraulic retention time should be increased to establish the optimal retention time for effective wastewater treatment.
This study aims to investigate appropriate utilization of mixing grease waste (GW) from a canteen’s grease trap with bamboo residues charcoal (BC) to produce briquette fuel in the various ratio by weight, 1:2, 2:2, 3:2 and 4:2 (GW:BC). The physical and chemical properties of briquette fuel were analyzed to verify its heating value components as specified by the American Society for Testing and Material (ASTM). The results showed that the mixture of all components could produce charcoal briquette fuel. The GW:BC mixing ratios 3:2 and 4:2 have heating values exceeding the minimum requirement under the Thai Community Product Standard (tcps 238/2004). The briquettes mixing ratio of 3:2 was suitable for utilization. The heating value high to 7,938 cal/g on a dry basis.The charcoal briquette mixed with grease waste can be a feasible alternative energy source for incinerating which minimize to reduce waste.
This study aims to investigate appropriate utilization of mixing grease waste (GW) from a canteen’s grease trap with cashew shell charcoal (CSC) to produce briquette fuel by weight (GW:CSC) in the ratio 1:2, 2:2, 3:2 and 4:2. All different mixing ratios used starch paste as binding agent. The physical and chemical properties of briquette fuel were analyzed to verify its heating value components as specified by the American Society for Testing and Material (ASTM). In addition, in terms of heat utilization efficiency and pollution aspects, the content of carbon monoxide (CO) emissions from combustion were measured. The result of this study shows that the mixture of all components could produce charcoal briquette fuel. All the different mixing ratios have heating values exceeding the minimum requirement under the Thai Community Product Standard (tcps 238/2004). The high heating value ranged from 7724-8109 cal g-1on a dry basis. The heat utilization efficiency of briquette fuel was between 5.15-12.43 min. The charcoal briquette in 4:2 ratio had the least time of boiling at 5.15 min. In regard to air pollution aspect, the average concentration of CO emissions from briquette fuel were 151.6, 232.4, 210.5 and 292.5 ppm in the ratio 1:2, 2:2, 3:2 and 4:2, respectively. The heating value of briquette fuel was higher than the heating value of other briquette fuel reported in previous studies. Therefore, the cashew shell mixed with grease waste would make an viable alternative energy source for incinerators, that can also minimize waste.
This research was to investigate the potential of biogas production from the co-digestion of canteen wastewater and food waste. Batch experiments were carried out under various substrate ratios1 : 1 : 0, 1 : 1 : 1, 1 : 1 : 2, 1 : 2 : 1, 2 : 1 : 1, 2 : 2 : 1, 3 : 2 : 1, 4 : 2 : 1, 6 : 5 : 1, 8 : 5 : 1, 10 : 3 : 1, 10 : 4 : 1 and 10 : 5 : 1 (canteen wastewater : swine manure : food residue waste) at room temperature. The biogas production was carried for a retention period of 7 days to investigate suitable mixing ratio. The suitable ratio was tested in a plastic container 200 liter with bath and fed-batch experiment for a retention period of 45 days. The results revealed that fermentation slurry mixing ratio of 1 : 2 : 1 was found to be optimum, which gave the methane production with composition 47.34-61 %CH 4 . The biogas yield and thermal energy were 88.86 L/day and 69 kcal respectively.These primary results indicated the significance of co-digestion of canteen wastewater with food waste for biodegradation and biogas production.
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