Algal Specie

14,000,000 Leading Edge Experts on the ideXlab platform

Scan Science and Technology

Contact Leading Edge Experts & Companies

Scan Science and Technology

Contact Leading Edge Experts & Companies

The Experts below are selected from a list of 36 Experts worldwide ranked by ideXlab platform

Tianzhong Liu - One of the best experts on this subject based on the ideXlab platform.

  • An oleaginous filamentous microalgae Tribonema minus exhibits high removing potential of industrial phenol contaminants.
    Bioresource technology, 2017
    Co-Authors: Cheng Tianyou, Hui Wang, Wei Zhang, Wenlei Zhang, Guanhua Yuan, Tianzhong Liu
    Abstract:

    Abstract Discharge of industrial phenol contaminants could cause great harm on natural environment. Through oleaginous microalgae cultivation in phenolic wastewater, pollutants can be phototrophically biofixed into biomass as feedstock for bioenergy production. It was firstly reported in this study that, an oleaginous filamentous microalgae Tribonema minus exhibited strong environmental phenol removal ability. T. minus filaments showed 449.46 mg g −1 of phenol-uptake capacity, obviously higher than those strains with low phenol absorption such as Scenedesmus dimorphus . And phenols could be removed efficiently at the initial phenol concentration up to 700 mg L −1 . Simultaneously, through T. minus growth, phenol concentration could be decreased from 100 mg L −1 to the range of 0.1–0.5 mg L −1 , which meet industrial discharge need of phenol contaminants in most countries. So Tribonema minus is a potential Algal Specie to help the construction of integrated process for both oleaginous biomass production and bioremediation of phenol contaminants.

Cheng Tianyou - One of the best experts on this subject based on the ideXlab platform.

  • An oleaginous filamentous microalgae Tribonema minus exhibits high removing potential of industrial phenol contaminants
    2017
    Co-Authors: Cheng Tianyou, Wang Hui, Zhang Wei, Zhang Wenlei, Yuan Guanhua, Liu Tianzhong
    Abstract:

    Discharge of industrial phenol contaminants could cause great harm on natural environment. Through oleaginous microalgae cultivation in phenolic wastewater, pollutants can be phototrophically biofixed into biomass as feedstock for bioenergy production. It was firstly reported in this study that, an oleaginous filamentous microalgae Tribonema minus exhibited strong environmental phenol removal ability. T. minus filaments showed 449.46 mg g(-1) of phenol-uptake capacity, obviously higher than those strains with low phenol absorption such as Scenedesmus dimorphus. And phenols could be removed efficiently at the initial phenol concentration up to 700 mg L-1. Simultaneously, through T. minus growth, phenol concentration could be decreased from 100 mg L-1 to the range of 0.1-0.5 mg L-1, which meet industrial discharge need of phenol contaminants in most countries. So Tribonema minus is a potential Algal Specie to help the construction of integrated process for both oleaginous biomass production and bioremediation of phenol contaminants. (C) 2017 Elsevier Ltd. All rights reserved

  • An oleaginous filamentous microalgae Tribonema minus exhibits high removing potential of industrial phenol contaminants.
    Bioresource technology, 2017
    Co-Authors: Cheng Tianyou, Hui Wang, Wei Zhang, Wenlei Zhang, Guanhua Yuan, Tianzhong Liu
    Abstract:

    Abstract Discharge of industrial phenol contaminants could cause great harm on natural environment. Through oleaginous microalgae cultivation in phenolic wastewater, pollutants can be phototrophically biofixed into biomass as feedstock for bioenergy production. It was firstly reported in this study that, an oleaginous filamentous microalgae Tribonema minus exhibited strong environmental phenol removal ability. T. minus filaments showed 449.46 mg g −1 of phenol-uptake capacity, obviously higher than those strains with low phenol absorption such as Scenedesmus dimorphus . And phenols could be removed efficiently at the initial phenol concentration up to 700 mg L −1 . Simultaneously, through T. minus growth, phenol concentration could be decreased from 100 mg L −1 to the range of 0.1–0.5 mg L −1 , which meet industrial discharge need of phenol contaminants in most countries. So Tribonema minus is a potential Algal Specie to help the construction of integrated process for both oleaginous biomass production and bioremediation of phenol contaminants.

Hui Wang - One of the best experts on this subject based on the ideXlab platform.

  • An oleaginous filamentous microalgae Tribonema minus exhibits high removing potential of industrial phenol contaminants.
    Bioresource technology, 2017
    Co-Authors: Cheng Tianyou, Hui Wang, Wei Zhang, Wenlei Zhang, Guanhua Yuan, Tianzhong Liu
    Abstract:

    Abstract Discharge of industrial phenol contaminants could cause great harm on natural environment. Through oleaginous microalgae cultivation in phenolic wastewater, pollutants can be phototrophically biofixed into biomass as feedstock for bioenergy production. It was firstly reported in this study that, an oleaginous filamentous microalgae Tribonema minus exhibited strong environmental phenol removal ability. T. minus filaments showed 449.46 mg g −1 of phenol-uptake capacity, obviously higher than those strains with low phenol absorption such as Scenedesmus dimorphus . And phenols could be removed efficiently at the initial phenol concentration up to 700 mg L −1 . Simultaneously, through T. minus growth, phenol concentration could be decreased from 100 mg L −1 to the range of 0.1–0.5 mg L −1 , which meet industrial discharge need of phenol contaminants in most countries. So Tribonema minus is a potential Algal Specie to help the construction of integrated process for both oleaginous biomass production and bioremediation of phenol contaminants.

Guanhua Yuan - One of the best experts on this subject based on the ideXlab platform.

  • An oleaginous filamentous microalgae Tribonema minus exhibits high removing potential of industrial phenol contaminants.
    Bioresource technology, 2017
    Co-Authors: Cheng Tianyou, Hui Wang, Wei Zhang, Wenlei Zhang, Guanhua Yuan, Tianzhong Liu
    Abstract:

    Abstract Discharge of industrial phenol contaminants could cause great harm on natural environment. Through oleaginous microalgae cultivation in phenolic wastewater, pollutants can be phototrophically biofixed into biomass as feedstock for bioenergy production. It was firstly reported in this study that, an oleaginous filamentous microalgae Tribonema minus exhibited strong environmental phenol removal ability. T. minus filaments showed 449.46 mg g −1 of phenol-uptake capacity, obviously higher than those strains with low phenol absorption such as Scenedesmus dimorphus . And phenols could be removed efficiently at the initial phenol concentration up to 700 mg L −1 . Simultaneously, through T. minus growth, phenol concentration could be decreased from 100 mg L −1 to the range of 0.1–0.5 mg L −1 , which meet industrial discharge need of phenol contaminants in most countries. So Tribonema minus is a potential Algal Specie to help the construction of integrated process for both oleaginous biomass production and bioremediation of phenol contaminants.

Wenlei Zhang - One of the best experts on this subject based on the ideXlab platform.

  • An oleaginous filamentous microalgae Tribonema minus exhibits high removing potential of industrial phenol contaminants.
    Bioresource technology, 2017
    Co-Authors: Cheng Tianyou, Hui Wang, Wei Zhang, Wenlei Zhang, Guanhua Yuan, Tianzhong Liu
    Abstract:

    Abstract Discharge of industrial phenol contaminants could cause great harm on natural environment. Through oleaginous microalgae cultivation in phenolic wastewater, pollutants can be phototrophically biofixed into biomass as feedstock for bioenergy production. It was firstly reported in this study that, an oleaginous filamentous microalgae Tribonema minus exhibited strong environmental phenol removal ability. T. minus filaments showed 449.46 mg g −1 of phenol-uptake capacity, obviously higher than those strains with low phenol absorption such as Scenedesmus dimorphus . And phenols could be removed efficiently at the initial phenol concentration up to 700 mg L −1 . Simultaneously, through T. minus growth, phenol concentration could be decreased from 100 mg L −1 to the range of 0.1–0.5 mg L −1 , which meet industrial discharge need of phenol contaminants in most countries. So Tribonema minus is a potential Algal Specie to help the construction of integrated process for both oleaginous biomass production and bioremediation of phenol contaminants.