详情描述

Shanghai University Laboratory Wastewater Treatment Equipment Manufacturer

In the design of laboratory wastewater treatment equipment, we adhere to the principles of advanced and applicable technology, strong process measures, reliable and stable systems, ease of operation and shutdown, a comprehensive cost savings of initial investment and daily operation expenses, and minimizing the occupied area and maximizing the use of existing treatment facilities. Through a comprehensive analysis of current wastewater treatment technologies at home and abroad, and in accordance with customer requirements, we employ the "acid-base neutralization adjustment + ultraviolet disinfection + multi-media filtration for heavy metals" process for wastewater treatment. Equipment using this process can effectively kill bacteria, pathogens, and other high-risk pollutants in wastewater. The acid-base neutralization system ensures uniform water quality and meets the national requirements for effluent pH value, protecting water quality. The multi-media filtration system filters out trace amounts of heavy metals, organic matter, inorganic matter, etc., reducing the composition of wastewater with low investment. The equipment achieves fully automatic operation and does not require dedicated supervision.

Principles of Laboratory Wastewater Treatment Equipment Design

(1) Maximize existing equipment and pipeline, reducing investment scale and costs.

(2) Processed and purified water can be considered for recycling to reduce processing load and lower operating costs.

(3) The newly built wastewater treatment equipment is easy to operate and maintain, with low operation costs.

(4) Ensure that the effluent from the treated wastewater meets the "Water Pollutant Emission Standards for Medical Institutions."

(5) When installing new processing equipment and modifying existing equipment and pipelines, strive to maintain the original landscape as much as possible.

Equipment Advantages:

1. Utilize technologies such as acid-base neutralization precipitation, active adsorption, and ozone sterilization for treating various pollutants in wastewater.

2. Utilizes a microcomputer program for real-time monitoring and control of wastewater quality and treatment process, ensuring around-the-clock, fully automatic operation without the need for constant supervision.

3. Accurately control dosing with a pH meter and imported metering pump, and equipped with liquid level control and other devices.

4. Utilize advanced oxygenators for thorough gas-water contact and complete reaction.

5. Easy to operate, stable performance, long service life, low operation and maintenance costs.

6. Compact footprint, suitable for indoor or outdoor placement based on different conditions.

7. Tailored design and manufacturing to meet customers' various requirements.

8. Equipment is leak-proof and comes with an integrated safety protection system.

Shanghai University Laboratory Wastewater Treatment Equipment Manufacturer

Application Scope:

Laboratory wastewater treatment equipment is widely used in universities, colleges, research institutions, health organizations, pharmaceuticals, disease control centers, environmental supervision, product quality inspection, inspection and quarantine, drug inspection, blood stations, animal husbandry, mining, petrochemical industries, and various laboratories and testing rooms. After treatment, the wastewater meets the first, second, and third-grade standards of the Comprehensive Wastewater Discharge Standard [GB8978-1996]. The treated wastewater can be discharged into the municipal wastewater pipeline or reused through further treatment processes.

Laboratory wastewater contains acids, alkalis, organic pollutants, heavy metal ions, pathogenic microorganisms, with a significant fluctuation in pH levels and high COD concentrations. It is mainly categorized into three major types:

1. Organic Wastewater: Primarily derived from laboratory reagents and solvents.

2. Inorganic wastewater: Main sources include acid and alkali reagents, heavy metal reagents.

3. Pathogenic Wastewater from Biological Sources: Primarily originates from microbiological, blood biochemical tests, blood stations, disease control centers, etc.