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Online COD BOD TSS Monitoring SensorOnline COD BOD TSS Monitoring SensorReal-time Online COD BOD TSS Probecod sensor arduinoCOD Sensor Manufacturer
Online COD BOD TSS Monitoring SensorReal-time Online COD BOD TSS Probecod sensor arduinoCOD Sensor Manufacturer
Water Quality Sensors
Real-time Online COD BOD TSS Monitoring Sensor Probe
COD BOD TSS Monitoring Sensor can be used to detect the Chemical Oxygen Demand, Biochemical Oxygen Demand, and Total suspended solids value of water quality.
DS500 series Real-time Online COD BOD TSS Monitoring Sensor Probe is a new generation of environmental protection type sensors launched by Desun Uniwill, which is based on the UV absorption principle, reagent-free, pollution-free, more economical, and environmentally protected. Small size, more convenient installation, online continuous water quality monitoring.
Category: Water Quality Sensors Tags: BOD COD Instrumentation, bod cod sensor, Chemical Oxygen Demand (COD) Sensor, cod bod sensor, COD BOD TSS Sensor, COD Probe, cod sensor arduino, COD Sensor Manufacturer, COD Sensor Supplier, Digital RS485 COD TOC BOD Sensor, Online COD sensor, Real-time BOD COD Monitoring
Description
Contents hide
1 Overview
2 COD Sensor Measuring Principle
3 Features of DS500 series COD Sensor
4 COD Sensors Technology Parameter
5 Application Areas of COD BOD TSS Monitoring Sensor Probe
6 COD BOD TSS Monitoring Medium
7 Desun Uniwill COD Sensors Use sites
8 COD BOD TSS Monitoring Sensor FAQs
8.1 1. What is COD, BOD, and TSS?
8.2 2. Why Measure Chemical Oxygen Demand (COD)?
8.3 3. What Processes Require Chemical Oxygen Demand (COD) Monitoring?
8.4 4. Why is COD an Important Water Quality Parameter?
8.5 5. What to Consider When Selecting a Method to Analyze Oxygen Demand?
9 COD SENSOR VIDEOS
10 COD BOD TSS Monitoring Sensor Related Articles
11 SEND AN ENQUIRY
Overview
COD, BOD, and TSS are important water quality parameters for wastewater treatment operations. COD BOD TSS Monitoring Sensor can be used to detect the Chemical Oxygen Demand, Biochemical Oxygen Demand, and Total suspended solids value of water quality.
DS500 series Real-time Online COD BOD TSS Monitoring Sensor Probe is a new generation of environmental protection type sensors launched by Desun Uniwill, which is based on the UV absorption principle, reagent-free, pollution-free, more economical, and environmentally protected. Small size, more convenient installation, online continuous water quality monitoring. Automatic compensation for turbidity interference, automatic cleaning devices, and even long-term monitoring still have excellent stability. It can be used in harsh environments and the monitoring data is stable and reliable. Multiple path length options are available to ensure our clients have the detection range that meets their wastewater monitoring demands.
COD Sensor Measuring Principle
Many organic substances dissolved in water absorb ultraviolet light. Therefore, the total amount of organic pollutants in water can be measured by measuring the absorption of these organic substances by ultraviolet light at a wavelength of 254 nm. DS500 series sensors use two light sources, one 254nm ultraviolet light and one 850nm infrared light, which can automatically compensate for the optical path attenuation and turbidity effects, thus achieving more stable and reliable measurement values. The sensors measure organics in a multi-dimensional way that results in improved correlations to water quality parameters such as BOD, COD, and TSS.
Features of DS500 series COD Sensor
-Digital sensors, RS-485 output, Modbus protocol;
-With automatic cleaning function and few-maintenance;
-No chemical reagents, no secondary pollution;
-Directly immersion COD measurement without sampling;
-Quickly response time and precision for COD continuous measurement;
-Real-time data transmission allows you to get timely and accurate data on monitoring water;
-Corrosion-resistant shell, easy to install;
-Proven UVC LED technology, long lifetime, stable and instant measurement;
-Measurement of parameters such as COD, TOC, TSS, and temperature;
-Adopts low power consumption design and has the characteristics of anti-interference performance;
-Automatic compensation for turbidity interference for excellent test performance.
COD Sensors Technology Parameter
Product name COD sensor
Detection principle UV245nm UV Optics
Measurement range
DS500
(6 mm gap) COD 0 ~ 500 mg/lL
TSS 0~500 mg/L
BOD 0~500 mg / L
Measurement range
DS500
(6 mm gap) COD 0 ~ 1000 mg/lL
TSS 0~500 mg/L
BOD 0~1000 mg / L
Measurement range
DS501
(1 mm gap) COD 0~6000 mg/lL
TSS 0~5000 mg/L
BOD 0~3000 mg / L
Measurement accuracy 3-5%
Resolution 0.01mg/L
Output signal RS-485、MODBUS protocol
Calibration method 2 points
Waterproof level IP68
Under pressure 1bar
Product material SS316/Titanium alloy
Product Size ∅46×234mm
Power information DC 6~12V,Current <10mA
Cable length Standard 5 meters, longer can be customized
Application Areas of COD BOD TSS Monitoring Sensor Probe
-Surface Water Pollution Detection and Monitoring
-Urban Well Monitoring
-River & lake Water Quality Monitoring
-Sewage Treatment Plant Water Quality Monitoring
-Fishery Water Quality Pollution Monitoring
-Fish farming, aquaculture
-Swimming Pool Water Quality Monitoring
-Industrial and Mining Enterprises, Detection of Urban Sewage Discharge
-Water quality monitoring of petrochemical, chemical, power generation, pharmaceutical, food, electronic, water plant, etc
-Water quality inspection of urban parks
-Smart city water quality detection
-Urban wastewater treatment: detecting organic load variations during input/ treatment process/ output.
-Treatment of industrial effluents
-Drinking water: monitoring Organic matter in raw water, oxidation process, coagulation, activated carbon filtration.
COD Sensor Application
COD BOD TSS Monitoring Medium
-Groundwater
-Surface Water
-Industrial Discharge Water
-River
-Lake
-Fishery Water
-Sewage
-Swimming Pool Water
-Urban wastewater
Desun Uniwill COD Sensors Use sites
Desun Uniwill COD Sensors Use sites 1
Desun Uniwill COD Sensors Use sites 2
Desun Uniwill COD BOD TSS Monitoring Sensor Use sites 3
COD BOD TSS Monitoring Sensor FAQs
1. What is COD, BOD, and TSS?
COD, BOD, and TSS are commonly used terms in environmental science and wastewater treatment.
COD: Chemical Oxygen Demand
COD measures the amount of oxygen required to chemically oxidize organic and inorganic matter in water. It is a measure of the pollution load, particularly the amount of organic pollutants, in water. COD is often used as an indicator of water quality and pollution levels in industrial and municipal wastewater.
BOD: Biochemical Oxygen Demand
BOD refers to the amount of dissolved oxygen consumed by microorganisms while decomposing organic matter in water. It indicates the level of organic pollution in water and the amount of oxygen needed for aerobic biological processes to break down organic pollutants. BOD is a key parameter in assessing the effectiveness of wastewater treatment processes and the overall health of aquatic ecosystems.
TSS: Total Suspended Solids
TSS represents the concentration of solid particles suspended in water, including organic and inorganic matter. These particles can include silt, sediment, organic debris, and other materials that are not dissolved in the water. It is an important parameter in assessing water clarity, sedimentation, and overall water quality, particularly in evaluating the effectiveness of sediment control measures and wastewater treatment processes.
2. Why Measure Chemical Oxygen Demand (COD)?
(1) Assessing Water Quality: COD measurement provides valuable information about the organic pollution level in water bodies. High COD levels indicate the presence of organic contaminants, which can adversely affect aquatic ecosystems and human health if not properly treated.
(2) Monitoring Wastewater Treatment Efficiency: In industrial and municipal wastewater treatment plants, measuring COD helps operators assess the efficiency of treatment processes. By monitoring COD levels in influent and effluent wastewater, operators can determine how effectively organic pollutants are being removed during treatment.
(3) Compliance with Regulations: Many environmental regulations set limits on the allowable COD levels in wastewater discharges. Industries and municipalities must comply with these regulations to avoid fines and penalties. Regular COD monitoring ensures compliance with regulatory requirements.
(4) Optimizing Treatment Processes: COD data allows wastewater treatment plant operators to optimize treatment processes for maximum efficiency. By tracking COD levels and adjusting treatment parameters accordingly, operators can improve the removal of organic pollutants and minimize environmental impact.
(5) Predicting Oxygen Depletion: High COD levels in water bodies can lead to oxygen depletion as microorganisms decompose organic matter, leading to conditions such as hypoxia or anoxia, which can harm aquatic life. Measuring COD helps predict and prevent such oxygen depletion events.
(6) Research and Development: COD measurement is also valuable in research and development efforts aimed at developing more efficient and sustainable wastewater treatment technologies. Researchers use COD data to evaluate the performance of new treatment methods and technologies.
3. What Processes Require Chemical Oxygen Demand (COD) Monitoring?
-Municipal and industrial wastewater treatment
-Primary Treatment.
-Secondary Treatment.
-Discharge limits.
-Continuous monitoring of organic matter load in the sewage treatment process.
-On-line real-time monitoring of influent and outflow water of the wastewater treatment.
4. Why is COD an Important Water Quality Parameter?
COD is an important water quality parameter and is used in a wide range of applications, including:
1, To confirm wastewater discharge and the waste treatment procedure meets criteria set by regulators;
2, To quantify the biodegradable fraction of wastewater effluent – ratio between BOD and COD;
3, COD or BOD measurements are also used as an indicator of the size of a wastewater treatment plant required for a specific location.
5. What to Consider When Selecting a Method to Analyze Oxygen Demand?
-Specific test application
-The oxidant to be used
-Time to completion
-Accuracy and precision of the measurement
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