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Comprehensive treatment device for laboratory wastewater and waste liquid (containerized)
Comprehensive treatment device for laboratory wastewater and waste liquid (containerized)
Product details
Purpose:
Dealing with hazardous wastewater generated from irregular and irregular intervals in the laboratory, temporarily storing hazardous waste, and effectively reducing excessive laboratory discharge, referring to the standards "Comprehensive Wastewater Discharge Label" GB8978, "Water Pollution Discharge Standard for Medical Institutions" GB18466-2005, "Pollutant Discharge Standard for Urban Wastewater Treatment Plants" GB18918-2002, "Water Pollutant Discharge Standard for Bioengineering Pharmaceutical Industry" GB21907-2008
Dealing with hazardous wastewater generated from irregular and irregular intervals in the laboratory, temporarily storing hazardous waste, and effectively reducing excessive laboratory discharge, referring to the standards "Comprehensive Wastewater Discharge Label" GB8978, "Water Pollution Discharge Standard for Medical Institutions" GB18466-2005, "Pollutant Discharge Standard for Urban Wastewater Treatment Plants" GB18918-2002, "Water Pollutant Discharge Standard for Bioengineering Pharmaceutical Industry" GB21907-2008
Product Features:
1. Develop personalized emission reduction treatment plans for hazardous wastewater in laboratories.
2. The equipment has functions such as automatic acid and alkali addition, chemical addition, precipitation, and filtration.
3. The wastewater treated by the equipment can meet the sewage discharge standards or surface water standards.
4. Online pH meter with automatic dosing or Fenton reaction.
5. Liquid collection.
7. Heavy metals.
8. Flocculation, sedimentation, and filtration.
9. Micro electrolysis, water purification process, chlorination disinfection.
10. Standard emissions (users must test according to environmental requirements before emissions).
5. Liquid collection.
7. Heavy metals.
8. Flocculation, sedimentation, and filtration.
9. Micro electrolysis, water purification process, chlorination disinfection.
10. Standard emissions (users must test according to environmental requirements before emissions).
Explanation: For the treatment of large quantities of waste liquids, it is necessary to design separate treatment processes based on the properties and emissions of pollutants; The equipment comes with a program for treating waste liquids containing copper sulfate, chromium, cadmium, lead, arsenic, phenol, and cyanide. For more information, please call 0731-88842508.
The scope of scientific research experiments in research institutions and higher education institutions is becoming increasingly wide. The composition of wastewater discharged from laboratories is relatively more complex compared to other wastewater, and the amount and quality of discharged water have characteristics such as uncertainty, dynamism, and poor reproducibility This untreated laboratory wastewater, after long-term bioaccumulation, may ultimately damage plant growth and endanger the lives of humans and animals. Experimental wastewater is discharged directly into sewage pipes without treatment or with simple treatment, causing great difficulties for subsequent domestic wastewater treatment and reuse of reclaimed water. Therefore, the professional treatment of laboratory wastewater has become an inevitable trend, and it will also require the establishment of professional treatment facilities, just like industrial wastewater and domestic wastewater.
The scope of scientific research experiments in research institutions and higher education institutions is becoming increasingly wide. The composition of wastewater discharged from laboratories is relatively more complex compared to other wastewater, and the amount and quality of discharged water have characteristics such as uncertainty, dynamism, and poor reproducibility This untreated laboratory wastewater, after long-term bioaccumulation, may ultimately damage plant growth and endanger the lives of humans and animals. Experimental wastewater is discharged directly into sewage pipes without treatment or with simple treatment, causing great difficulties for subsequent domestic wastewater treatment and reuse of reclaimed water. Therefore, the professional treatment of laboratory wastewater has become an inevitable trend, and it will also require the establishment of professional treatment facilities, just like industrial wastewater and domestic wastewater.
The traditional processes for treating heavy metal wastewater mostly have disadvantages such as poor treatment efficiency, high treatment costs, complex process flow, and large equipment footprint. Membrane technology, as an emerging separation technology, has considerable technical advantages in the field of water treatment due to its high separation efficiency, low energy consumption, no phase change, easy operation, no secondary pollution, easy recovery of separation products, and high degree of automation. The basic principle of membrane separation is to use the selective permeability of the membrane for separation and concentration under a certain driving force. According to the differences in particle size and membrane performance of membrane retention components, common membrane separation processes can be divided into the following categories: microfiltration (MF), ultrafiltration (UF), nanofiltration (UF), reverse osmosis (RO), electrodialysis (ED), etc. Especially, reverse osmosis membrane separation technology, as an advanced technology in water treatment in the world today, has the advantages of cleanliness, efficiency, and pollution-free. It has been widely used in seawater desalination, urban water treatment, pure water and ultrapure water preparation, urban sewage treatment and utilization, industrial wastewater treatment, radioactive wastewater treatment, and other fields.
Note: The processing capacity of the laboratory comprehensive wastewater and waste liquid treatment system can be customized according to the actual needs of users.
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