Environment Technology

No.

Thematic Research

Key Technologies

25

Research on Capacity Reduction Method of Municipal Solid Waste Disposal Station

The treatment station includes waste fermentation station and treatment pond. The spraying and aeration of landfill leachate make anaerobic bacteria and aerobic bacteria play a good role in degradation and greatly improve the speed of degradation of organic matter; the anaerobic and aerobic ponds further digest and degrade the organic matter in garbage; the recycling system makes the organic matter in garbage degraded repeatedly, which can maximize the reduction of garbage.

26

Study on Removal of Ammonia Nitrogen from Ammonia Nitrogen Wastewater

Combining the stripping method, advanced oxidation method, folding point chlorination method, biochemical treatment and physical adsorption method, ammonia nitrogen can be removed efficiently and thoroughly. At the same time, the removal effect of COD and SS in wastewater is very good. It has the advantages of high removal rate of ammonia nitrogen, strong process stability and stable quality of effluent.

27

Study on Microbial Purification of Polluted River

The device includes a culture tank, a water intake system, a water outlet system and an aeration system. Carbon source was added to the microbial incubator to ensure the number of microorganisms proliferating; the switch of aeration system was controlled to change the dissolved oxygen concentration in the incubator, and a large number of aerobic and anaerobic bacteria were cultured respectively to ensure the full nitrification and denitrification process and the efficient removal of ammonia nitrogen.

28

Study on Bypass Purification Method for Nitrogen and Phosphorus Removal in Micro-polluted River

River bypass ecological filters include anaerobic pond, first aerobic pond, anoxic pond, second aerobic pond and ecological pond. Filling slow-release carbon source particles can provide energy for the growth and reproduction of microorganisms and ensure the stable purification of nitrogen and phosphorus. Cement bricks and ceramics absorb phosphorus and promote phosphorus precipitation. Aquatic vegetables are used as filter bed plants to transfer nitrogen and phosphorus rapidly through regular harvesting.

29

Development of Photoelectric Integrated Electrocatalytic Device

A photovoltaic integrated catalytic device was developed by combining photovoltaic power generation with electrochemical catalytic device. The effects of photovoltaic power supply, equipment materials, device structure, electrode types, filler materials, and layout of water inlet and outlet pipelines on the treatment of industrial organic wastewater were studied.

30

Pilot Study on Pulse Electrochemical Catalytic System

Pulse electrochemical catalytic device, pulse power supply, equipment materials, types of electrodes, filler materials, layout of inlet and outlet water pipes, etc. were developed.

A pilot-scale study was carried out in a pulsed electrochemical device to investigate the effects of current, voltage, pulse duty cycle, electrolytic time, electrolyte type, electrolyte concentration, wastewater PH value, catalytic filler and other factors on wastewater treatment.

31

Development of Electrocatalytic Denitrification and Oxygenation Device for Surface Water

A surface water electrocatalytic denitrification and oxygenation device was developed. The equipment materials, device structure, filler materials and the layout of water inlet and outlet pipelines were studied.

The electrochemical denitrification and oxygenation device is applied to surface water purification. The effects of current density, electrolyte time, electrolyte type, electrolyte concentration, wastewater PH value and catalytic filler on water quality treatment are investigated.

32

Study on Electrocatalytic process for high ammonia nitrogen wastewater

The electrocatalytic process was used to treat wastewater containing high ammonia nitrogen. The types of electrodes were studied. The effects of current density, solution PH value, initial concentration of ammonia nitrogen, plate spacing, reaction temperature, reaction time, electrolyte type and amount on electrocatalytic degradation of ammonia nitrogen were investigated.

33

Study on the Improvement Method of Tail Water Standard in Sewage Treatment Plant

The overall technical principle is "source control before intensified treatment; function orientation before unit selection; optimization of operation before engineering measures; internal carbon source before external carbon source; physical phosphorus removal after chemical phosphorus removal", and technical route is adopted to implement it.

No.

Thematic Research

Key Technologies

25

Research on Capacity Reduction Method of Municipal Solid Waste Disposal Station

The treatment station includes waste fermentation station and treatment pond. The spraying and aeration of landfill leachate make anaerobic bacteria and aerobic bacteria play a good role in degradation and greatly improve the speed of degradation of organic matter; the anaerobic and aerobic ponds further digest and degrade the organic matter in garbage; the recycling system makes the organic matter in garbage degraded repeatedly, which can maximize the reduction of garbage.

26

Study on Removal of Ammonia Nitrogen from Ammonia Nitrogen Wastewater

Combining the stripping method, advanced oxidation method, folding point chlorination method, biochemical treatment and physical adsorption method, ammonia nitrogen can be removed efficiently and thoroughly. At the same time, the removal effect of COD and SS in wastewater is very good. It has the advantages of high removal rate of ammonia nitrogen, strong process stability and stable quality of effluent.

27

Study on Microbial Purification of Polluted River

The device includes a culture tank, a water intake system, a water outlet system and an aeration system. Carbon source was added to the microbial incubator to ensure the number of microorganisms proliferating; the switch of aeration system was controlled to change the dissolved oxygen concentration in the incubator, and a large number of aerobic and anaerobic bacteria were cultured respectively to ensure the full nitrification and denitrification process and the efficient removal of ammonia nitrogen.

28

Study on Bypass Purification Method for Nitrogen and Phosphorus Removal in Micro-polluted River

River bypass ecological filters include anaerobic pond, first aerobic pond, anoxic pond, second aerobic pond and ecological pond. Filling slow-release carbon source particles can provide energy for the growth and reproduction of microorganisms and ensure the stable purification of nitrogen and phosphorus. Cement bricks and ceramics absorb phosphorus and promote phosphorus precipitation. Aquatic vegetables are used as filter bed plants to transfer nitrogen and phosphorus rapidly through regular harvesting.

29

Development of Photoelectric Integrated Electrocatalytic Device

A photovoltaic integrated catalytic device was developed by combining photovoltaic power generation with electrochemical catalytic device. The effects of photovoltaic power supply, equipment materials, device structure, electrode types, filler materials, and layout of water inlet and outlet pipelines on the treatment of industrial organic wastewater were studied.

30

Pilot Study on Pulse Electrochemical Catalytic System

Pulse electrochemical catalytic device, pulse power supply, equipment materials, types of electrodes, filler materials, layout of inlet and outlet water pipes, etc. were developed.

A pilot-scale study was carried out in a pulsed electrochemical device to investigate the effects of current, voltage, pulse duty cycle, electrolytic time, electrolyte type, electrolyte concentration, wastewater PH value, catalytic filler and other factors on wastewater treatment.

31

Development of Electrocatalytic Denitrification and Oxygenation Device for Surface Water

A surface water electrocatalytic denitrification and oxygenation device was developed. The equipment materials, device structure, filler materials and the layout of water inlet and outlet pipelines were studied.

The electrochemical denitrification and oxygenation device is applied to surface water purification. The effects of current density, electrolyte time, electrolyte type, electrolyte concentration, wastewater PH value and catalytic filler on water quality treatment are investigated.

32

Study on Electrocatalytic process for high ammonia nitrogen wastewater

The electrocatalytic process was used to treat wastewater containing high ammonia nitrogen. The types of electrodes were studied. The effects of current density, solution PH value, initial concentration of ammonia nitrogen, plate spacing, reaction temperature, reaction time, electrolyte type and amount on electrocatalytic degradation of ammonia nitrogen were investigated.

33

Study on the Improvement Method of Tail Water Standard in Sewage Treatment Plant

The overall technical principle is "source control before intensified treatment; function orientation before unit selection; optimization of operation before engineering measures; internal carbon source before external carbon source; physical phosphorus removal after chemical phosphorus removal", and technical route is adopted to implement it.

No.

Thematic Research

Key Technologies

25

Research on Capacity Reduction Method of Municipal Solid Waste Disposal Station

The treatment station includes waste fermentation station and treatment pond. The spraying and aeration of landfill leachate make anaerobic bacteria and aerobic bacteria play a good role in degradation and greatly improve the speed of degradation of organic matter; the anaerobic and aerobic ponds further digest and degrade the organic matter in garbage; the recycling system makes the organic matter in garbage degraded repeatedly, which can maximize the reduction of garbage.

26

Study on Removal of Ammonia Nitrogen from Ammonia Nitrogen Wastewater

Combining the stripping method, advanced oxidation method, folding point chlorination method, biochemical treatment and physical adsorption method, ammonia nitrogen can be removed efficiently and thoroughly. At the same time, the removal effect of COD and SS in wastewater is very good. It has the advantages of high removal rate of ammonia nitrogen, strong process stability and stable quality of effluent.

27

Study on Microbial Purification of Polluted River

The device includes a culture tank, a water intake system, a water outlet system and an aeration system. Carbon source was added to the microbial incubator to ensure the number of microorganisms proliferating; the switch of aeration system was controlled to change the dissolved oxygen concentration in the incubator, and a large number of aerobic and anaerobic bacteria were cultured respectively to ensure the full nitrification and denitrification process and the efficient removal of ammonia nitrogen.

28

Study on Bypass Purification Method for Nitrogen and Phosphorus Removal in Micro-polluted River

River bypass ecological filters include anaerobic pond, first aerobic pond, anoxic pond, second aerobic pond and ecological pond. Filling slow-release carbon source particles can provide energy for the growth and reproduction of microorganisms and ensure the stable purification of nitrogen and phosphorus. Cement bricks and ceramics absorb phosphorus and promote phosphorus precipitation. Aquatic vegetables are used as filter bed plants to transfer nitrogen and phosphorus rapidly through regular harvesting.

29

Development of Photoelectric Integrated Electrocatalytic Device

A photovoltaic integrated catalytic device was developed by combining photovoltaic power generation with electrochemical catalytic device. The effects of photovoltaic power supply, equipment materials, device structure, electrode types, filler materials, and layout of water inlet and outlet pipelines on the treatment of industrial organic wastewater were studied.

30

Pilot Study on Pulse Electrochemical Catalytic System

Pulse electrochemical catalytic device, pulse power supply, equipment materials, types of electrodes, filler materials, layout of inlet and outlet water pipes, etc. were developed.

A pilot-scale study was carried out in a pulsed electrochemical device to investigate the effects of current, voltage, pulse duty cycle, electrolytic time, electrolyte type, electrolyte concentration, wastewater PH value, catalytic filler and other factors on wastewater treatment.

31

Development of Electrocatalytic Denitrification and Oxygenation Device for Surface Water

A surface water electrocatalytic denitrification and oxygenation device was developed. The equipment materials, device structure, filler materials and the layout of water inlet and outlet pipelines were studied.

The electrochemical denitrification and oxygenation device is applied to surface water purification. The effects of current density, electrolyte time, electrolyte type, electrolyte concentration, wastewater PH value and catalytic filler on water quality treatment are investigated.

32

Study on Electrocatalytic process for high ammonia nitrogen wastewater

The electrocatalytic process was used to treat wastewater containing high ammonia nitrogen. The types of electrodes were studied. The effects of current density, solution PH value, initial concentration of ammonia nitrogen, plate spacing, reaction temperature, reaction time, electrolyte type and amount on electrocatalytic degradation of ammonia nitrogen were investigated.

33

Study on the Improvement Method of Tail Water Standard in Sewage Treatment Plant

The overall technical principle is "source control before intensified treatment; function orientation before unit selection; optimization of operation before engineering measures; internal carbon source before external carbon source; physical phosphorus removal after chemical phosphorus removal", and technical route is adopted to implement it.

No.

Thematic Research

Key Technologies

25

Research on Capacity Reduction Method of Municipal Solid Waste Disposal Station

The treatment station includes waste fermentation station and treatment pond. The spraying and aeration of landfill leachate make anaerobic bacteria and aerobic bacteria play a good role in degradation and greatly improve the speed of degradation of organic matter; the anaerobic and aerobic ponds further digest and degrade the organic matter in garbage; the recycling system makes the organic matter in garbage degraded repeatedly, which can maximize the reduction of garbage.

26

Study on Removal of Ammonia Nitrogen from Ammonia Nitrogen Wastewater

Combining the stripping method, advanced oxidation method, folding point chlorination method, biochemical treatment and physical adsorption method, ammonia nitrogen can be removed efficiently and thoroughly. At the same time, the removal effect of COD and SS in wastewater is very good. It has the advantages of high removal rate of ammonia nitrogen, strong process stability and stable quality of effluent.

27

Study on Microbial Purification of Polluted River

The device includes a culture tank, a water intake system, a water outlet system and an aeration system. Carbon source was added to the microbial incubator to ensure the number of microorganisms proliferating; the switch of aeration system was controlled to change the dissolved oxygen concentration in the incubator, and a large number of aerobic and anaerobic bacteria were cultured respectively to ensure the full nitrification and denitrification process and the efficient removal of ammonia nitrogen.

28

Study on Bypass Purification Method for Nitrogen and Phosphorus Removal in Micro-polluted River

River bypass ecological filters include anaerobic pond, first aerobic pond, anoxic pond, second aerobic pond and ecological pond. Filling slow-release carbon source particles can provide energy for the growth and reproduction of microorganisms and ensure the stable purification of nitrogen and phosphorus. Cement bricks and ceramics absorb phosphorus and promote phosphorus precipitation. Aquatic vegetables are used as filter bed plants to transfer nitrogen and phosphorus rapidly through regular harvesting.

29

Development of Photoelectric Integrated Electrocatalytic Device

A photovoltaic integrated catalytic device was developed by combining photovoltaic power generation with electrochemical catalytic device. The effects of photovoltaic power supply, equipment materials, device structure, electrode types, filler materials, and layout of water inlet and outlet pipelines on the treatment of industrial organic wastewater were studied.

30

Pilot Study on Pulse Electrochemical Catalytic System

Pulse electrochemical catalytic device, pulse power supply, equipment materials, types of electrodes, filler materials, layout of inlet and outlet water pipes, etc. were developed.

A pilot-scale study was carried out in a pulsed electrochemical device to investigate the effects of current, voltage, pulse duty cycle, electrolytic time, electrolyte type, electrolyte concentration, wastewater PH value, catalytic filler and other factors on wastewater treatment.

31

Development of Electrocatalytic Denitrification and Oxygenation Device for Surface Water

A surface water electrocatalytic denitrification and oxygenation device was developed. The equipment materials, device structure, filler materials and the layout of water inlet and outlet pipelines were studied.

The electrochemical denitrification and oxygenation device is applied to surface water purification. The effects of current density, electrolyte time, electrolyte type, electrolyte concentration, wastewater PH value and catalytic filler on water quality treatment are investigated.

32

Study on Electrocatalytic process for high ammonia nitrogen wastewater

The electrocatalytic process was used to treat wastewater containing high ammonia nitrogen. The types of electrodes were studied. The effects of current density, solution PH value, initial concentration of ammonia nitrogen, plate spacing, reaction temperature, reaction time, electrolyte type and amount on electrocatalytic degradation of ammonia nitrogen were investigated.

33

Study on the Improvement Method of Tail Water Standard in Sewage Treatment Plant

The overall technical principle is "source control before intensified treatment; function orientation before unit selection; optimization of operation before engineering measures; internal carbon source before external carbon source; physical phosphorus removal after chemical phosphorus removal", and technical route is adopted to implement it.

No.

Thematic Research

Key Technologies

25

Research on Capacity Reduction Method of Municipal Solid Waste Disposal Station

The treatment station includes waste fermentation station and treatment pond. The spraying and aeration of landfill leachate make anaerobic bacteria and aerobic bacteria play a good role in degradation and greatly improve the speed of degradation of organic matter; the anaerobic and aerobic ponds further digest and degrade the organic matter in garbage; the recycling system makes the organic matter in garbage degraded repeatedly, which can maximize the reduction of garbage.

26

Study on Removal of Ammonia Nitrogen from Ammonia Nitrogen Wastewater

Combining the stripping method, advanced oxidation method, folding point chlorination method, biochemical treatment and physical adsorption method, ammonia nitrogen can be removed efficiently and thoroughly. At the same time, the removal effect of COD and SS in wastewater is very good. It has the advantages of high removal rate of ammonia nitrogen, strong process stability and stable quality of effluent.

27

Study on Microbial Purification of Polluted River

The device includes a culture tank, a water intake system, a water outlet system and an aeration system. Carbon source was added to the microbial incubator to ensure the number of microorganisms proliferating; the switch of aeration system was controlled to change the dissolved oxygen concentration in the incubator, and a large number of aerobic and anaerobic bacteria were cultured respectively to ensure the full nitrification and denitrification process and the efficient removal of ammonia nitrogen.

28

Study on Bypass Purification Method for Nitrogen and Phosphorus Removal in Micro-polluted River

River bypass ecological filters include anaerobic pond, first aerobic pond, anoxic pond, second aerobic pond and ecological pond. Filling slow-release carbon source particles can provide energy for the growth and reproduction of microorganisms and ensure the stable purification of nitrogen and phosphorus. Cement bricks and ceramics absorb phosphorus and promote phosphorus precipitation. Aquatic vegetables are used as filter bed plants to transfer nitrogen and phosphorus rapidly through regular harvesting.

29

Development of Photoelectric Integrated Electrocatalytic Device

A photovoltaic integrated catalytic device was developed by combining photovoltaic power generation with electrochemical catalytic device. The effects of photovoltaic power supply, equipment materials, device structure, electrode types, filler materials, and layout of water inlet and outlet pipelines on the treatment of industrial organic wastewater were studied.

30

Pilot Study on Pulse Electrochemical Catalytic System

Pulse electrochemical catalytic device, pulse power supply, equipment materials, types of electrodes, filler materials, layout of inlet and outlet water pipes, etc. were developed.

A pilot-scale study was carried out in a pulsed electrochemical device to investigate the effects of current, voltage, pulse duty cycle, electrolytic time, electrolyte type, electrolyte concentration, wastewater PH value, catalytic filler and other factors on wastewater treatment.

31

Development of Electrocatalytic Denitrification and Oxygenation Device for Surface Water

A surface water electrocatalytic denitrification and oxygenation device was developed. The equipment materials, device structure, filler materials and the layout of water inlet and outlet pipelines were studied.

The electrochemical denitrification and oxygenation device is applied to surface water purification. The effects of current density, electrolyte time, electrolyte type, electrolyte concentration, wastewater PH value and catalytic filler on water quality treatment are investigated.

32

Study on Electrocatalytic process for high ammonia nitrogen wastewater

The electrocatalytic process was used to treat wastewater containing high ammonia nitrogen. The types of electrodes were studied. The effects of current density, solution PH value, initial concentration of ammonia nitrogen, plate spacing, reaction temperature, reaction time, electrolyte type and amount on electrocatalytic degradation of ammonia nitrogen were investigated.

33

Study on the Improvement Method of Tail Water Standard in Sewage Treatment Plant

The overall technical principle is "source control before intensified treatment; function orientation before unit selection; optimization of operation before engineering measures; internal carbon source before external carbon source; physical phosphorus removal after chemical phosphorus removal", and technical route is adopted to implement it.