Determination of total organic carbon in landfill leachate by wet chemical oxidation technology (CAT#: STEM-PPA-0117-LJX)

Introduction

Landfill leachate is a kind of high concentration organic waste water with great harm, which causes serious pollution to the surrounding environment and the bottom soil layer of landfill site, and the pollution lasts for a long time, which is easy to cause serious secondary pollution. Therefore, the effective collection and treatment of leachate has become an urgent problem to be solved in urban environment. The total organic carbon in landfill leachate can be determined by wet oxidation to judge its pollution degree.

Add to Cart Please Inquire

Principle Applications Procedure Materials Notes Related Products

Principle

Both inorganic carbonates and organic pollutants in water contain carbon, and their total amount is called total carbon (TC). The carbon in all inorganic carbonates is called total inorganic carbon (TIC), and the carbon in all organic matter is called total organic carbon (TOC).
The wet oxidation method can detect TIC, TOC and TC in the same sample simultaneously. The water sample enters the digestion reactor through the automatic sampling loop tube, reacts with 5%(v/v) phosphoric acid at first, and the CO2 produced by decomposition is blown out by high purity nitrogen, and then enters the gas infrared detector (NDIR) to detect TIC after dehumidification through the drying tube. Then sodium persulfate oxidant was added to the digester to react quickly with various organic matter in the water sample at 100℃, and the CO2 produced by decomposition was also entered into the gas infrared detector to detect TOC. The amount of CO2 detected is proportional to the amount of TIC and TOC in the water sample, respectively.

Applications

For the determination of total organic carbon in liquids

Procedure

1. The water sample enters the digestion reactor through the automatic sampling loop
2. The inorganic carbonate in the water sample reacts with 5%(v/v) phosphoric acid, and the CO2 produced by decomposition is blown out by high-purity nitrogen, which is dehumidified through the drying tube and then enters the gas infrared detector (NDIR) for TIC detection
3. Sodium persulfate oxidizer is added to the digester to react rapidly with various organic matter in the water sample at 100℃, and the CO2 generated by decomposition is also entered into the gas infrared detector to detect TOC
4. The sum of TIC and TOC is the TC content

Materials

• Sample Type:
Landfill leachate

Notes

The container used for sampling must be kept clean and free of organic contamination.

Other recommended products

Determination of total organic carbon in secondary brine by wet chemical oxidation technology (CAT#: STEM-PPA-0115-LJX)
Determination of total organic carbon in electroplating waste liquid by wet chemical oxidation technology (CAT#: STEM-PPA-0116-LJX)
Determination of total organic carbon in high salinity organic wastewater by wet chemical oxidation technology (CAT#: STEM-PPA-0111-LJX)
Determination of total organic carbon in urban water supply source water and drinking water by wet chemical oxidation technology (CAT#: STEM-PPA-0118-LJX)
Determination of total organic carbon in water by wet chemical oxidation technology (CAT#: STEM-PPA-0113-LJX)
Determination of total organic carbon in fresh water by wet chemical oxidation technology (CAT#: STEM-PPA-0112-LJX)
Determination of total organic carbon in spring water by wet chemical oxidation technology (CAT#: STEM-PPA-0114-LJX)