AI Article Synopsis
- The research addresses challenges in treating wastewater from avermectin production, which has high chemical oxygen demand and requires significant dilution for current treatment methods.
- A yeast strain (H-1) closely related to Candida tropicalis was identified for its ability to thrive in avermectin-rich wastewater, demonstrating substantial growth, with a 66.67% reduction in COD and 99.48% removal of avermectins under optimal conditions.
- The resulting dry yeast powder, with high protein content and low moisture, shows potential as a valuable and cost-effective resource for further avermectin production.
Article Abstract
Wastewater from avermectin production is refractory with high output, high chemical oxygen demand (COD) concentration and high cost further. The current wastewater treatment technology, with little reuse of the organic material, needs high dilution ratio during treatment. Yeast single cell protein was produced from the wastewater of avermectins fermentation in this research. First, the yeast strain (H-1) which show enough tolerance to avermectins residue was screened from the wastewater, and it was identified as being most closely related to Candida tropicalis (100%, EF120592.1) using 18S rDNA gene sequence analysis. Second, its growth characteristics in the avermectins wastewater were studied. The dry biomass reached the maximal point of 10 g/L, the COD removal was up to 66.67%, and avermectins removal in the wastewater was 99.48% at the optimal condition that it was liquid volume 50 ml (250 ml flask), pH 4.0, temperature 30°C, inoculum volume 10% (V/V) and fermentation period 20 h. Third, the nutritional contents of dry yeast powder were determined, in which the water content was 8.12%, ash content was 5.18% and the crude protein was 40.02%. The dry yeast powder from avermectin waste liquor was promising to be used as a raw material or nitrogen source for commercial production of avermectins. The project was economically feasible by primary cost accounting.
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| http://dx.doi.org/10.1007/s00449-011-0563-6 | DOI Listing |
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April 2011
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Article Synopsis
- The research addresses challenges in treating wastewater from avermectin production, which has high chemical oxygen demand and requires significant dilution for current treatment methods.
- A yeast strain (H-1) closely related to Candida tropicalis was identified for its ability to thrive in avermectin-rich wastewater, demonstrating substantial growth, with a 66.67% reduction in COD and 99.48% removal of avermectins under optimal conditions.
- The resulting dry yeast powder, with high protein content and low moisture, shows potential as a valuable and cost-effective resource for further avermectin production.
[Analysis of methanogenic community of anaerobic granular sludge in a full-scale UASB treating avermectin wastewater].
Huan Jing Ke Xue
March 2010
School of Environmental Science and Engineering, Hebei University of Science and Technology, Shijiazhuang 050018, China.
Methanogens is considered to be important functional microbial population in anaerobic granular sludge. Fluorescence in situ hybridization was used to analyze methanogens of anaerobic granular sludge in a full-scale UASB treating avermectin wastewater. The results indicated that the distribution forms of methanogens, Methanobacteriales and Methanosarcinales were identical on the surface and inner face of granular sludge samples in different formation stages (with different diameters) , although the relative abundances of these methanogens were different.
View Article and Find Full Text PDFApplication of combined physicochemical and biological processes for enhanced treatment of avermectin fermentation wastewater.
Water Sci Technol
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