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Sodium Acetate Liquid
CH3COONa:
20-30%
PH:
7.5-9
COD:
20
Water insoluble:
0.001
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Product Descriptions
Introduction
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Usage Method
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 Liquid sodium acetate typically refers to a solution of sodium acetate dissolved in water. This solution is often used in various industrial, laboratory, and commercial applications. Here’s an overview of liquid sodium acetate:

1. Composition:

  • Concentration: The concentration of sodium acetate in the liquid can vary depending on the application. Common concentrations range from 10% to 30% by weight, but it can be adjusted as needed.
  • pH: Liquid sodium acetate solutions typically have a slightly basic pH, usually around 8-9, depending on the concentration and purity.

2. Applications:

  • Buffer Solutions: Liquid sodium acetate is widely used as a buffering agent in various chemical reactions and biological processes, helping to maintain a stable pH.
  • Water Treatment: Used as a carbon source in biological water treatment processes like denitrification and phosphorus removal.
 Sodium acetate trihydrate is used in water treatment for various purposes, primarily due to its properties as a carbon source and buffering agent. Here are some ways it is used:

 

 1. As a Carbon Source in Biological Treatment:

   Enhanced Biological Phosphorus Removal (EBPR): Sodium acetate is often added to wastewater in biological treatment processes to promote the growth of phosphorus-accumulating organisms (PAOs). These organisms require a readily available carbon source to function effectively, and sodium acetate serves this purpose well.

   Denitrification: In wastewater treatment, sodium acetate is used as a carbon source to support denitrifying bacteria. These bacteria reduce nitrates in the water to nitrogen gas, thereby removing nitrogen compounds that could otherwise contribute to water pollution.

 

 2. Buffering Agent:

   pH Control: Sodium acetate can act as a buffering agent to stabilize the pH of water during treatment processes. Maintaining an appropriate pH is critical for the optimal performance of various chemical and biological treatments. The acetate ion can neutralize acids and bases, helping to keep the pH within a desired range.

 

 3. Corrosion Inhibition:

   Corrosion Control: In some water systems, particularly in industrial settings, sodium acetate may be used as a corrosion inhibitor. It helps in reducing the corrosive properties of water, protecting pipes and equipment from damage.

 

 4. Chemical Precipitation:

   Metal Precipitation: Sodium acetate can also assist in the chemical precipitation of certain metals from water, which is a common method for removing heavy metals from wastewater streams.

 

5. Odor Control:

   Odor Reduction: In some cases, sodium acetate is used to control odors in wastewater treatment plants. It helps to neutralize volatile fatty acids (VFAs) and other odor-causing compounds.

 

Advantages:

   Biodegradability: Sodium acetate is readily biodegradable, making it an environmentally friendly option.

   Cost-Effective: It is relatively inexpensive compared to other carbon sources and chemicals used in water treatment.

 

Disadvantages:

   Excessive Use: Overuse of sodium acetate can lead to an increase in biochemical oxygen demand (BOD) in the treated water, which can stress downstream treatment processes or receiving water bodies.

 

Overall, sodium acetate trihydrate is a versatile and effective chemical in water treatment, particularly for biological processes like denitrification and phosphorus removal.

 

 Using sodium acetate trihydrate as a carbon source in biological treatment processes, particularly in wastewater treatment for denitrification and enhanced biological phosphorus removal (EBPR), involves several steps to ensure effective dosing and optimal microbial activity. Here’s a guide on how to use it:

1. Determine the Required Carbon Dose:

· Assess the Carbon Demand: Calculate the amount of sodium acetate needed based on the biochemical oxygen demand (BOD) or chemical oxygen demand (COD) of the wastewater. The goal is to provide enough organic carbon to support the microbial processes without overloading the system.

· Typical Dosage: For denitrification, the dosage of sodium acetate typically ranges from 3 to 5 mg of acetate per mg of nitrate-N reduced. For EBPR, the dose depends on the amount of phosphorus to be removed and the concentration of phosphorus-accumulating organisms (PAOs).

2. Prepare the Sodium Acetate Solution:

· Dissolution: Dissolve sodium acetate trihydrate in water to prepare a concentrated solution. The concentration of the solution should be based on the ease of dosing and handling. For example, a 10-20% (w/v) solution is commonly used.

· Mixing: Ensure the solution is well-mixed to achieve a homogenous concentration. This can be done in a mixing tank with mechanical stirrers.

3. Injection into the Wastewater Stream:

· Injection Points: Identify the appropriate points in the wastewater treatment process to add the sodium acetate solution. For denitrification, sodium acetate is typically added to the anoxic zones where nitrate reduction occurs. For EBPR, it’s added to the anaerobic zone where PAOs uptake acetate.

· Dosing System: Use a metering pump or dosing system to control the injection rate

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