Get Quote
Contact us now to receive a detailed quotation.
COD Reflux Digestion Reactor LMCDR-A100 features 6 digestion pores for efficient sample processing. It ensures uniform heating and efficient digestion. Equipped with digital temperature controller for consistent regulation. Integrated with corrosion-resistant housing for durability. Our Reactor is ideal for wastewater and environmental analysis.
Specifications
| Digestion Temperature Range | Room temperature to 400ºC |
| Timing Range | 1 min to 10 hrs |
| Timing Accuracy | 0.2s/h |
| Number Of Digestion Pores | 6 |
| Working Temperature Range | 5 to 40ºC |
| Ambient Humidity | Less than or equal to 85% |
| Display | LCD Screen |
| Power Consumption | 1800 W |
| Power Supply | AC220V±10%/50Hz |
| Dimension | 404×434×507 mm |
| Weight | 16.5 Kg |
Pricing
| Product | Price | Unit | Action |
|---|---|---|---|
| COD Reflux Digestion Reactor LMCDR-A100 | $ 3587.5 | Each of 1 |
Features
User-friendly operation
LCD Screen
Compact design
Stable performance
Standard Accessories
Accessory | Quantity | Unit |
Thorn-shaped condenser tube | 6 | Piece |
Conical flask | 6 | Piece |
Explosion-proof porcelain tube | 6 | Piece |
COD special consumable | 1 | Bottle |
Applications
COD Reflux Digestion Reactor LMCDR-A100 ensures controlled high-temperature digestion for consistent chemical oxygen demand analysis. It supports environmental monitoring of wastewater treatment and research laboratories for reliable water quality assessment.
Selection Guide
COD Reflux Digestion Reactor LMCDR-A100 is designed for accurate and efficient chemical oxygen demand (COD) analysis, making it suitable for water and wastewater testing in environmental monitoring, industrial effluent treatment, and academic research. Customers involved in environmental testing laboratories or regulatory compliance projects will benefit from its ability to handle digestion temperatures from room temperature up to 400ºC, suitable for complete oxidation of organic substances. With a flexible timing range from 1 minute to 10 hours and a high timing accuracy of 0.2s/h, it provides accurate and repeatable digestion processes, essential for experimental consistency. The reactor features 6 digestion pores, allowing simultaneous multi-sample processing, which enhances productivity in high-throughput labs. Selection is further supported by certifications that comply with environmental and laboratory safety standards, ensuring reliability and regulatory acceptance.
Similar Products
$ 2225 / Each of 1
$ 2437.5 / Each of 1
Frequently Asked Questions
1 What is a COD Reactor?
A COD Reactor is an apparatus designed to treat wastewater samples in order to measure their Chemical Oxygen Demand (COD) for water quality analysis.
2 How does COD Reactor work?
It works by heating wastewater samples with a chemical reagent that accelerates the oxidation of organic matter and provides COD measurement.
3 What is the role of COD Reactor in environmental testing?
It plays a crucial role in environmental testing by helping laboratories and treatment plants in determining the COD levels of water samples.
4 Can COD Reactor be used for all types of wastewater?
It can be used to test a variety of wastewater such as industrial, municipal and agricultural wastewater.
5 Can COD Reactor be used for drinking water testing?
It can be used for testing drinking water.
6 Can COD Reactor measure COD values in low concentration samples?
It can measure COD values in low concentration samples.
7 Can COD Reactor be used for high-temperature reactions?
It is engineered to handle high-temperature reactions.
8 Can COD Reactor be used in combination with other water quality tests?
It is used alongside other water quality tests like pH and turbidity for comprehensive water analysis.
9 Can COD Reactor be used for testing food and beverage industry wastewater?
It is commonly used in food and beverage industry to measure organic pollutants in wastewater generated during food processing and packaging.
10 Can COD Reactor measure the impact of chemical additives in water treatment?
It can measure the impact of chemical additives used in water treatment by testing the treated water for organic pollutants.