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Showing 2 results for Pajoum Shariati
S.a. Teymouri , A. Habibi, F. Pajoum Shariati , Gh.a. Nematzadeh , H. Delavari Amrei ,
Volume 10, Issue 2 (Spring 2019)
Abstract
Effluent from dairy industry has a high amount of nutrients such as nitrate and phosphate. In this work nitrate and phosphate removal from treated dairy wastewater in the presence of organic load was investigated. For this purpose, 400ml of synthetic wastewater was inoculated with 2ml of seed culture of microalgae Chlorella salina. During the growth period, nitrate and phosphate concentration in synthetic wastewater was measured for 1, 3, 5 and 7 days with the standard method (APHA). Results showed that removal of nitrate and phosphate by the microalgae from synthetic wastewater was 100% and 95%, respectively. Also, maximum biomass production in 7 days of experiment was about 0.7g/L. These values showed that Chlorella Salina could be potential candidates by showing their intrinsic merit for removal of phosphate and nitrate from dairy wastewater and can be used in treated outlet refinement from the dairy treatment plant to be used before entering to the environment.
Volume 25, Issue 2 (2-2023)
Abstract
The local strain of B. thuringiensis var. tenebrionis-BN2 (Btt-BN2) was used to control the alfalfa weevil. Experimental design using Response Surface Methodology (RSM) was applied for the optimization of the culture medium and fermentation parameters in order to achieve a high level of Colony-Forming Unit (CFU) (spore mL−1). The parameters including the amount of carbon and nitrogen sources at three levels were investigated with CFU (spore mL−1) response for two sets of experiments. The obtained results showed that the maximum CFU (spore mL−1) for the minimum concentration of oat (2 g L-1), the minimum concentration of corn steep liquor (10 g L-1), and the maximum concentration of sugarcane molasses (10 g L-1) were equivalent to 1.4×1013 spore mL-1. Optimum fermentation parameters to obtain the highest value of CFU (spore mL−1) were determined as a maximum level of pH of eight and a medium level of temperature (280C). Amazingly, optimum conditions enhanced the CFU value to 8.06× 1013 spore mL-1, which is very significant in the Btt research. Finally, the bioassay analysis of Btt in a single system and binary system (combination of two insecticides; Matrine® and Abamectin®) at different concentrations illustrated 83% of mortality efficiency (3 ppm of Btt and 0.5 ppm Matrine) on the 3rd day of treatment and 100% efficiency almost for all combination of Btt with Matrine and/or Abamectin after the 7th day. The bioassay results showed promising environmentally friendly mortality efficiency compared to the current chemical treatments.
