The Experts below are selected from a list of 267 Experts worldwide ranked by ideXlab platform
Xinde Chen - One of the best experts on this subject based on the ideXlab platform.
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introduction of one efficient industrial system for Turpentine processing wastewater reuse and treatment
Science of The Total Environment, 2019Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Xinde ChenAbstract:Wastewater treatment is one important issue for Turpentine plant and more wastewater generated by greater Turpentine processing will prevent its further development. To solve this issue without extra place and new equipment, one industrial system for reuse and treatment of Turpentine processing wastewater was introduced for the first time. For wastewater reuse, the technology was simple and easy to control that after neutralization by lime and absorption with activated carbon (optional, mostly not necessary), the wastewater could be reused for Turpentine processing. After reuse, the wastewater was further treated by a biological system. During long-term application of wastewater reuse in this plant, it showed little influence on the products performance (mainly acid value) and final wastewater COD. Base on above advantages, the plant could decide when for wastewater drainage, and thus the amount of wastewater was reduced greatly. For the biological treatment, the COD of wastewater could be degraded to suitable level stably and the wastewater after treatment could be applied for daily life in the plant. Overall, considering the cost, operation, and performance, the whole system shows great potential and possibility of industrial application and therefore can be applied widely in the Turpentine processing industry.
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efficient cod degradation of Turpentine processing wastewater by combination of fe c micro electrolysis and fenton treatment long term study and scale up
Chemical Engineering Journal, 2018Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Haijun Guo, Can Wang, Mutan Luo, Xinde ChenAbstract:Abstract Turpentine processing industry is one important chemical and forestry industry but during this industrial process, plenty of wastewater with high COD that is difficult to be degraded will be generated. Finding suitable method for this wastewater treatment is necessary for Turpentine processing industry. In this study, combination of micro-electrolysis by Fe-C filler and Fenton treatment was used instead of traditional absorption method for Turpentine processing wastewater treatment. By both batch and continuous experiments, Fe-C filler showed efficient performance for COD degradation, and excellent operation life and stability. After Fe-C micro-electrolysis, the COD of wastewater can be further degraded by Fenton reaction and following pH adjusting. The wastewater after Fe-C micro-electrolysis and Fenton treatment was suitable for biodegradation. Fe-C micro-electrolysis and Fenton treatment were scaled up and both technologies showed potential for large-scale treatment. Compared with absorption by activated carbon, combination of micro-electrolysis by Fe-C filler and Fenton treatment showed advantages in both cost and operation, and therefore it is promising for industrial application. Overall, one efficient method for Turpentine processing wastewater treatment was successfully built, and this technology can solve the environmental issue of current Turpentine processing industry and thus promote its development.
Chao Huang - One of the best experts on this subject based on the ideXlab platform.
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introduction of one efficient industrial system for Turpentine processing wastewater reuse and treatment
Science of The Total Environment, 2019Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Xinde ChenAbstract:Wastewater treatment is one important issue for Turpentine plant and more wastewater generated by greater Turpentine processing will prevent its further development. To solve this issue without extra place and new equipment, one industrial system for reuse and treatment of Turpentine processing wastewater was introduced for the first time. For wastewater reuse, the technology was simple and easy to control that after neutralization by lime and absorption with activated carbon (optional, mostly not necessary), the wastewater could be reused for Turpentine processing. After reuse, the wastewater was further treated by a biological system. During long-term application of wastewater reuse in this plant, it showed little influence on the products performance (mainly acid value) and final wastewater COD. Base on above advantages, the plant could decide when for wastewater drainage, and thus the amount of wastewater was reduced greatly. For the biological treatment, the COD of wastewater could be degraded to suitable level stably and the wastewater after treatment could be applied for daily life in the plant. Overall, considering the cost, operation, and performance, the whole system shows great potential and possibility of industrial application and therefore can be applied widely in the Turpentine processing industry.
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efficient cod degradation of Turpentine processing wastewater by combination of fe c micro electrolysis and fenton treatment long term study and scale up
Chemical Engineering Journal, 2018Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Haijun Guo, Can Wang, Mutan Luo, Xinde ChenAbstract:Abstract Turpentine processing industry is one important chemical and forestry industry but during this industrial process, plenty of wastewater with high COD that is difficult to be degraded will be generated. Finding suitable method for this wastewater treatment is necessary for Turpentine processing industry. In this study, combination of micro-electrolysis by Fe-C filler and Fenton treatment was used instead of traditional absorption method for Turpentine processing wastewater treatment. By both batch and continuous experiments, Fe-C filler showed efficient performance for COD degradation, and excellent operation life and stability. After Fe-C micro-electrolysis, the COD of wastewater can be further degraded by Fenton reaction and following pH adjusting. The wastewater after Fe-C micro-electrolysis and Fenton treatment was suitable for biodegradation. Fe-C micro-electrolysis and Fenton treatment were scaled up and both technologies showed potential for large-scale treatment. Compared with absorption by activated carbon, combination of micro-electrolysis by Fe-C filler and Fenton treatment showed advantages in both cost and operation, and therefore it is promising for industrial application. Overall, one efficient method for Turpentine processing wastewater treatment was successfully built, and this technology can solve the environmental issue of current Turpentine processing industry and thus promote its development.
Xuefang Chen - One of the best experts on this subject based on the ideXlab platform.
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introduction of one efficient industrial system for Turpentine processing wastewater reuse and treatment
Science of The Total Environment, 2019Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Xinde ChenAbstract:Wastewater treatment is one important issue for Turpentine plant and more wastewater generated by greater Turpentine processing will prevent its further development. To solve this issue without extra place and new equipment, one industrial system for reuse and treatment of Turpentine processing wastewater was introduced for the first time. For wastewater reuse, the technology was simple and easy to control that after neutralization by lime and absorption with activated carbon (optional, mostly not necessary), the wastewater could be reused for Turpentine processing. After reuse, the wastewater was further treated by a biological system. During long-term application of wastewater reuse in this plant, it showed little influence on the products performance (mainly acid value) and final wastewater COD. Base on above advantages, the plant could decide when for wastewater drainage, and thus the amount of wastewater was reduced greatly. For the biological treatment, the COD of wastewater could be degraded to suitable level stably and the wastewater after treatment could be applied for daily life in the plant. Overall, considering the cost, operation, and performance, the whole system shows great potential and possibility of industrial application and therefore can be applied widely in the Turpentine processing industry.
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efficient cod degradation of Turpentine processing wastewater by combination of fe c micro electrolysis and fenton treatment long term study and scale up
Chemical Engineering Journal, 2018Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Haijun Guo, Can Wang, Mutan Luo, Xinde ChenAbstract:Abstract Turpentine processing industry is one important chemical and forestry industry but during this industrial process, plenty of wastewater with high COD that is difficult to be degraded will be generated. Finding suitable method for this wastewater treatment is necessary for Turpentine processing industry. In this study, combination of micro-electrolysis by Fe-C filler and Fenton treatment was used instead of traditional absorption method for Turpentine processing wastewater treatment. By both batch and continuous experiments, Fe-C filler showed efficient performance for COD degradation, and excellent operation life and stability. After Fe-C micro-electrolysis, the COD of wastewater can be further degraded by Fenton reaction and following pH adjusting. The wastewater after Fe-C micro-electrolysis and Fenton treatment was suitable for biodegradation. Fe-C micro-electrolysis and Fenton treatment were scaled up and both technologies showed potential for large-scale treatment. Compared with absorption by activated carbon, combination of micro-electrolysis by Fe-C filler and Fenton treatment showed advantages in both cost and operation, and therefore it is promising for industrial application. Overall, one efficient method for Turpentine processing wastewater treatment was successfully built, and this technology can solve the environmental issue of current Turpentine processing industry and thus promote its development.
Fen Peng - One of the best experts on this subject based on the ideXlab platform.
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introduction of one efficient industrial system for Turpentine processing wastewater reuse and treatment
Science of The Total Environment, 2019Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Xinde ChenAbstract:Wastewater treatment is one important issue for Turpentine plant and more wastewater generated by greater Turpentine processing will prevent its further development. To solve this issue without extra place and new equipment, one industrial system for reuse and treatment of Turpentine processing wastewater was introduced for the first time. For wastewater reuse, the technology was simple and easy to control that after neutralization by lime and absorption with activated carbon (optional, mostly not necessary), the wastewater could be reused for Turpentine processing. After reuse, the wastewater was further treated by a biological system. During long-term application of wastewater reuse in this plant, it showed little influence on the products performance (mainly acid value) and final wastewater COD. Base on above advantages, the plant could decide when for wastewater drainage, and thus the amount of wastewater was reduced greatly. For the biological treatment, the COD of wastewater could be degraded to suitable level stably and the wastewater after treatment could be applied for daily life in the plant. Overall, considering the cost, operation, and performance, the whole system shows great potential and possibility of industrial application and therefore can be applied widely in the Turpentine processing industry.
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efficient cod degradation of Turpentine processing wastewater by combination of fe c micro electrolysis and fenton treatment long term study and scale up
Chemical Engineering Journal, 2018Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Haijun Guo, Can Wang, Mutan Luo, Xinde ChenAbstract:Abstract Turpentine processing industry is one important chemical and forestry industry but during this industrial process, plenty of wastewater with high COD that is difficult to be degraded will be generated. Finding suitable method for this wastewater treatment is necessary for Turpentine processing industry. In this study, combination of micro-electrolysis by Fe-C filler and Fenton treatment was used instead of traditional absorption method for Turpentine processing wastewater treatment. By both batch and continuous experiments, Fe-C filler showed efficient performance for COD degradation, and excellent operation life and stability. After Fe-C micro-electrolysis, the COD of wastewater can be further degraded by Fenton reaction and following pH adjusting. The wastewater after Fe-C micro-electrolysis and Fenton treatment was suitable for biodegradation. Fe-C micro-electrolysis and Fenton treatment were scaled up and both technologies showed potential for large-scale treatment. Compared with absorption by activated carbon, combination of micro-electrolysis by Fe-C filler and Fenton treatment showed advantages in both cost and operation, and therefore it is promising for industrial application. Overall, one efficient method for Turpentine processing wastewater treatment was successfully built, and this technology can solve the environmental issue of current Turpentine processing industry and thus promote its development.
Lian Xiong - One of the best experts on this subject based on the ideXlab platform.
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introduction of one efficient industrial system for Turpentine processing wastewater reuse and treatment
Science of The Total Environment, 2019Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Xinde ChenAbstract:Wastewater treatment is one important issue for Turpentine plant and more wastewater generated by greater Turpentine processing will prevent its further development. To solve this issue without extra place and new equipment, one industrial system for reuse and treatment of Turpentine processing wastewater was introduced for the first time. For wastewater reuse, the technology was simple and easy to control that after neutralization by lime and absorption with activated carbon (optional, mostly not necessary), the wastewater could be reused for Turpentine processing. After reuse, the wastewater was further treated by a biological system. During long-term application of wastewater reuse in this plant, it showed little influence on the products performance (mainly acid value) and final wastewater COD. Base on above advantages, the plant could decide when for wastewater drainage, and thus the amount of wastewater was reduced greatly. For the biological treatment, the COD of wastewater could be degraded to suitable level stably and the wastewater after treatment could be applied for daily life in the plant. Overall, considering the cost, operation, and performance, the whole system shows great potential and possibility of industrial application and therefore can be applied widely in the Turpentine processing industry.
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efficient cod degradation of Turpentine processing wastewater by combination of fe c micro electrolysis and fenton treatment long term study and scale up
Chemical Engineering Journal, 2018Co-Authors: Chao Huang, Fen Peng, Lian Xiong, Xuefang Chen, Cheng Zhao, Haijun Guo, Can Wang, Mutan Luo, Xinde ChenAbstract:Abstract Turpentine processing industry is one important chemical and forestry industry but during this industrial process, plenty of wastewater with high COD that is difficult to be degraded will be generated. Finding suitable method for this wastewater treatment is necessary for Turpentine processing industry. In this study, combination of micro-electrolysis by Fe-C filler and Fenton treatment was used instead of traditional absorption method for Turpentine processing wastewater treatment. By both batch and continuous experiments, Fe-C filler showed efficient performance for COD degradation, and excellent operation life and stability. After Fe-C micro-electrolysis, the COD of wastewater can be further degraded by Fenton reaction and following pH adjusting. The wastewater after Fe-C micro-electrolysis and Fenton treatment was suitable for biodegradation. Fe-C micro-electrolysis and Fenton treatment were scaled up and both technologies showed potential for large-scale treatment. Compared with absorption by activated carbon, combination of micro-electrolysis by Fe-C filler and Fenton treatment showed advantages in both cost and operation, and therefore it is promising for industrial application. Overall, one efficient method for Turpentine processing wastewater treatment was successfully built, and this technology can solve the environmental issue of current Turpentine processing industry and thus promote its development.
