Subsurface Sewage Treatment System, Waste Water Treatment Equipment for Biopharmaceutical Labs, High Level of Automation

Submersible Sewage Treatment System, Waste Water Treatment Equipment for Biopharmaceutical Labs, High Level of Automation

The process steps for laboratory wastewater treatment equipment typically include pretreatment, chemical treatment, biological treatment, and advanced treatment phases. The pretreatment phase mainly involves collection, homogenization, and screen filtration to remove large particles and suspended solids from the wastewater. The chemical treatment phase removes harmful substances from the wastewater through methods like coagulation and sedimentation, and heavy metal capture. The biological treatment phase utilizes the metabolic action of microorganisms to degrade organic matter, further purifying the water quality. The advanced treatment phase removes fine suspended particles, bacteria, and viruses through multi-stage filtration and activated carbon adsorption, ensuring that the effluent water quality meets standards.

Based on the characteristics and treatment requirements of laboratory wastewater, small-scale wastewater treatment units can be categorized into the following types:
Integrated Treatment Unit: Combines physical, chemical, and biological treatment modules, featuring a compact design suitable for treating small to moderate volumes of complex wastewater.
Membrane separation technology devices, such as ultrafiltration, nanofiltration, and reverse osmosis, can effectively remove dissolved solids, bacteria, viruses, and more from wastewater, making them suitable for applications with extremely high water quality requirements.
Electrochemical Treatment Unit: Utilizes electrolysis principles to remove pollutants from wastewater through oxidation-reduction reactions, particularly suitable for treating wastewater containing heavy metal ions.
Plant-based Purification System: Utilizes the absorption, adsorption, and degradation capabilities of aquatic plants to treat wastewater, suitable for low-concentration organic wastewater and for the dual purpose of environmental beautification.

Laboratory Wastewater Treatment Equipment Features:

1. Widely applicable, capable of accommodating the comprehensive waste liquid treatment for various laboratories

2. Utilizes multiple advanced technologies for multi-stage treatment and purification of wastewater, achieving discharge standards.

3. Centralized control at the midpoint, high level of automation, simple operation, fully automatic operation, no need for dedicated personnel on duty.

4. Automatic leak and electric shock protection, high and low voltage automatic protection, no wastewater protection, and liquid storage tank level protection.

5. Modular integrated technology with excellent processing effects, no secondary pollution like waste residue or wastewater, and low operation costs.

6. Acid and alkali corrosion-resistant, low noise, low power, and multiple safety protection features.

7. With a "one-stop" integrated design, it boasts an aesthetically pleasing appearance, minimal land occupation, rapid processing speed, cost-effective investment, easy installation and mobility, high processing capacity, excellent processing results, low energy consumption, noiseless operation, no leaks, and environmental friendliness, truly achieving engineering equipmentization. No need for multiple treatment ponds, and it doesn't generate secondary pollution such as waste, waste gas, and wastewater.

Operating Principle:

This equipment is a modular, high-efficiency biological wastewater treatment unit, a system that primarily utilizes biofilm for purification. It maximizes the features of biofilm reactors like anaerobic biofilters and contact oxidation beds—high biomass density, strong resistance to pollutants, low energy consumption, stable operation, and easy maintenance—leading to a wide application prospect and promotional value for the system.

Process Features:

1. Treat various pollutants in wastewater using technologies such as neutralization and precipitation, chemical oxidation, heavy metal capture, photocatalytic reaction, micro-electrolysis, ozone oxidation, and multi-media filtration. 2. Monitor and control the quality of wastewater and treatment process in real-time with a microcomputer program, ensuring around-the-clock, fully automatic operation without the need for constant supervision. 3. Accurately control dosing with a pH meter and imported metering pumps, and equipped with level control, low-drug alarm, and automatic sludge discharge systems. 4. Utilize advanced aeration equipment for thorough gas-water contact and complete reaction. 5. Easy to operate, stable in performance, long lifespan, and low operation and maintenance costs. 6. Takes up minimal space, can be installed indoors or outdoors as needed. 7. Tailor-made design and manufacturing to meet customer-specific requirements.

Subsurface Sewage Treatment System, Waste Water Treatment Equipment for Biopharmaceutical Labs, High Automation Level

Key Points for Operation, Management, and Maintenance:
Regular Inspections: Monitor water quality output weekly to ensure compliance with discharge standards; replace consumables like activated carbon, filter membranes, etc., on a regular basis.
2. Safe Operation: Operators must undergo training, be familiar with equipment operation procedures, and emergency response measures (such as leak handling).
3. Documentation and Reporting: Establish operational logs to record wastewater treatment volume, chemical consumption, equipment failures, etc., for easy traceability and improvement.
4. Emergency Response Plan: Establish rapid response measures for equipment malfunctions or exceedance of emissions standards, such as activating backup equipment or temporarily storing wastewater.