侯庆杰

个人信息Personal Information

性别：男

在职信息：在职

所在单位：环境科学与工程学院

入职时间：2017-07-24

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论文成果

当前位置：中文主页 >> 科学研究 >> 论文成果

[1] 侯庆杰. Significance of Oxygen Supply in Jarosite Biosynthesis Promoted by Acidithiobacillus ferrooxidans. PLOS ONE, 2015.
[2] 裴海燕 , 侯庆杰 and 陈帅琦. Biofilm development dynamics and pollutant removal performance of ceramsite made from drinking-water treatment sludge. Water Environment Research, 2019.
[3] 裴海燕 , 侯庆杰 and 于泽. Phytohormone addition coupled with nitrogen depletion almost tripled the lipid productivities in two algae. Bioresource Technology, 2017.
[4] 裴海燕 , 侯庆杰 and 杨志刚. Effects of air bubble size on algal growth rate and lipid accumulation using fine-pore diffuser photobioreactors. Algal Research-Biomass Biofuels and Bioproducts, 2018.
[5] 侯庆杰 , 裴海燕 and 杨志刚. Coupling a photosynthetic microbial fuel cell (PMFC) with photobioreactors (PBRs) for pollutant removal and bioenergy recovery from anaerobically digested effluent. Chemical Engineering Journal , 2018.
[6] 裴海燕 , 蒋丽群 , 侯庆杰 Effect of diethyl aminoethyl hexanoate on the accumulation of high-value biocompounds produced by two novel isolated microalgae. Bioresource Technology, 2015.
[7] 裴海燕 , 蒋丽群 , 侯庆杰 Biomass production and nutrient assimilation by a novel microalga, Monoraphidium spp. SDEC-17, cultivated in a high-ammonia wastewater. Energy Conversion and Management, 2016.
[8] 裴海燕 , 侯庆杰 and 于泽. The effects of combined agricultural phytohormones on the growth, carbon partitioning and cell morphology of two screened algae. Bioresource Technology, 2017.
[9] 裴海燕 , 侯庆杰 and 于泽. The growth characteristics and biodiesel production of ten algae strains cultivated in anaerobically digested effluent from kitchen waste. Algal Research-Biomass Biofuels and Bioproducts, 2017.
[10] 裴海燕 and 侯庆杰. Toward facilitating microalgae cope with？effluent from？anaerobic digestion of？kitchen waste: the art of？agricultural phytohormones. Biotechnology for Biofuels, 2017.
[11] 侯庆杰 , 裴海燕 Mutual facilitations of food waste treatment, microbial fuel cell bioelectricity generation and Chlorella vulgaris lipid production. Bioresource Technology, 2015.
[12] 侯庆杰 , 裴海燕 The effect of algae species on the bioelectricity and biodiesel generation through open-air cathode microbial fuel cell with kitchen waste anaerobically digested effluent as substrate. Bioresource Technology, 2016.
[13] 裴海燕 , 侯庆杰 and 张立杰. Salinity-induced cellular cross-talk in carbon partitioning reveals starch-tolipid biosynthesis switching in low-starch freshwater algae. Bioresource Technology, 2017.
[14] 裴海燕 , 侯庆杰 and 杨志刚. Algal biofilm-assisted microbial fuel cell to enhance domestic wastewater treatment: Nutrient, organics removal and bioenergy production. Chemical Engineering Journal , 2017.
[15] 裴海燕 and 侯庆杰. Using a tubular photosynthetic microbial fuel cell to treat anaerobically digested effluent from kitchen waste: Mechanisms of organics and ammonium removal. Bioresource Technology, 2018.
[16] 侯庆杰 and 裴海燕. Using an anaerobic digestion tank as the anodic chamber of an algae-assisted microbial fuel cell to improve energy production from food waste. WATER RESEARCH Journal, 2019.
[17] 裴海燕 , 侯庆杰 and 于泽. The effects of algal extracellular substances on algal growth, metabolism and long-term medium recycle, and inhibition alleviation through ultrasonication. Bioresource Technology, 2018.
[18] 裴海燕 , 侯庆杰 and 张立杰. Cultivation of microalgae using anaerobically digested effluent from kitchen waste as a nutrient source for biodiesel production. Renewable Energy, 2017.
[19] 裴海燕 and 侯庆杰. Multiple anodic chambers sharing an algal raceway pond to establish a photosynthetic microbial fuel cell stack: Voltage boosting accompany wastewater treatment. WATER RESEARCH Journal, 2019.
[20] 裴海燕 , 蒋丽群 , 侯庆杰 Biomass production and nutrient assimilation by a novel microalga, Monoraphidium, spp. SDEC-17, cultivated in a high-ammonia wastewater. ENERGY CONVERSION AND MANAGEMENT, 2016.

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