Detection or trace levels of polyethylene glycol ether surfactants in biological tissues

This paper reports the development and application of an analytical method in which both polyethylene glycol ethers or polyethylene glycols are converted into ethylene dibromide via treatment with concentrated hydrobromic acid/glacial acetic acid (1:1) at 150°C for 3 hours. This method can detect <1 ppm of the surfactant in biological tissues, however, the practical utility of the technique is dependent on the solvent and reagent purities and the various cleanup methods which include base hydrolysis, high pressure liquid chromatography and Florisil or acidified Florisil column chromatography.     

Using Chitosan as a Coagulant in Recovery of Organic Matters from the Mash and Lauter Wastewater of Brewery

Chitosan is a natural biopolymer which can be used to replace aluminum salts and chemical polymers as a coagulant to avoid the human health problems caused by the residual of aluminum and chemical polymers in water. Chitin is a major component in shrimp and crab shells, and chitosan can be produced from chitin via a deacetylated process. Since the biodegradation of chitin is very slow, large amount of discards from the processing of crustaceans has become a major concern in seafood industry. Therefore, more works are need to find the possible applications of chitin, chitosan and their derivatives. This research used chitosan as a coagulant to recover wheat dregs in the wastewater from washing the mash and the lauter unit in a brewery, and regards this study as an example to understand the influences of the characters of the wastewater on the treatment plant of brewery. The result shows that the␣wastewater from the mash and the lauter units can have the best treatment efficiency at the coagulant dosage of 120 mg/L in the original pH 4.5. Increasing the solution pH decreased the turbidity removal efficiency. The dominant mechanisms for chitosan to remove colloids in the␣wastewater are charge bridging and neutralization, and the later becomes less significant in␣the high pH. The coagulant of chitosan removed most of the colloidal form organic matter in the wastewater, but it has only little effect on the removal of dissolving organic matter. Chitosan is a natural material, after coagulation the sludge from the mash and lauter wastewater can serve directly as an animal husbandry fodder after been dehydrated. Therefore, the loading to wastewater treatment plant and the cost of treatment could be reduced.     

Profiles and removal efficiency of polycyclic aromatic hydrocarbons by two different types of sewage treatment plants in Hong Kong

Sewage discharge could be a major source of polycyclic aromatic hydrocarbons(PAHs) in the coastal waters. Stonecutters Island and Shatin Sewage Treatment Works(SCISTW and STSTW)in Hong Kong, adopted chemically enhanced primary treatment and biological treatment,respectively. This study aimed at(1) determining the removal efficiencies of PAHs,(2) comparing the capabilities in removing PAHs, and(3) characterizing the profile of each individual PAHs, in the two sewage treatment plants(STPs). Quantification of 16 PAHs was conducted by a Gas Chromatography. The concentrations of total PAHs decreased gradually along the treatment processes(from 301 ± 255 and 307 ± 217 ng/L to 14.9 ± 12.1 and 63.3 ± 54.1 ng/L in STSTW and SCISTW, respectively). It was noted that STSTW was more capable in removing total PAHs than SCISTW with average total removal efficiency 94.4% ± 4.12% vs. 79.2% ± 7.48%(p 0.05). The removal of PAHs was probably due to sorption in particular matter, confirmed by the higher distribution coefficient of individual and total PAHs in solid samples(dewatered sludge contained92.5% and 74.7% of total PAHs in SCISTW and STSTW, respectively) than liquid samples(final effluent-total contained 7.53% and 25.3% of total PAHs in STSTW and SCISTW, respectively).Despite the impressive capability of STSTW and SCISTW in removing PAHs, there was still a considerable amount of total PAHs(1.85 and 39.3 kg/year, respectively for the two STPs) being discharged into Hong Kong coastal waters, which would be an environmental concern.