
COD Probe – Sensor For Water Quality
The COD Probe is a device used to measure the Chemical Oxygen Demand (COD) of water. COD is a measure of the amount of organic matter in water that can be oxidized by a strong chemical oxidant.
We develop and produce water quality sensors, including dissolved oxygen sensors, turbidity sensors, algae sensors, pH sensors, BOD/COD sensors, total phosphorus and nitrogen sensors, etc
The COD Probe is a device used to measure the Chemical Oxygen Demand (COD) of water. COD is a measure of the amount of organic matter in water that can be oxidized by a strong chemical oxidant.
It is widely used for determination of chlorine in natural water, surface water, groundwater and aquaculture.
A BOD probe, also known as a biochemical oxygen demand probe, is a device used to measure the dissolved oxygen (DO) concentration in water. It is a key tool for monitoring water quality and assessing the health of aquatic ecosystems.
A dissolved oxygen probe is a device used to measure the DO concentration in water. Probes come in a variety of types, but they all work by measuring the amount of oxygen that diffuses across a membrane into the sensor.
Portable dissolved oxygen analyzer (determinator) is mainly used in laboratories, aquariums, aquatic product breeding, rice fields, swimming pools, etc. It is specially designed for the convenience of users to carry to the scene.
A water pH sensor is a device used to measure the acidity or alkalinity of water.
Introducing our highly advanced and reliable Water Turbidity Sensor, designed to provide users with fast and accurate measurements of water turbidity.
Placing the sensor in water for a few seconds can display the measurement results, which is simple, convenient, low-cost, and fast.
High sensitivity, long service life, high pressure resistance, high temperature resistance, and full body waterproofing
Agriculture is the backbone of our society, providing food and resources to sustain populations around the world. With the ever-increasing global population and the need for sustainable agriculture, it is crucial to find innovative ways to enhance agricultural productivity. One such method is by harnessing water quality sensors for optimal crop growth.
Water is a precious resource in agriculture, and efficient irrigation practices are crucial for maximizing crop yield and minimizing water wastage. With the increasing global demand for food and the need for sustainable farming practices, it is essential to revolutionize irrigation methods. Water quality sensors have emerged as key tools in this endeavor,
water quality monitoring systems have emerged as innovative tools that can significantly contribute to maximizing crop yield. By ensuring optimal water conditions for plant growth and minimizing the negative impact of water-related issues, these monitoring systems have the potential to revolutionize agricultural practices.