HD-BAL009
HAIDE
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Advanced sanitary tank is a sealed container that meets hygiene standards, mainly used for storing, mixing, reacting, or transporting liquids, slurries, and other materials. Its design and manufacturing strictly follow hygiene standards to ensure that materials are not contaminated during storage and processing, while also being easy to clean and disinfect.
Food industry: used for storing milk, juice, edible oil, syrup, etc.
Pharmaceutical industry: used for storing drug solutions, injection water, culture media, etc.
Biological products industry: used for cell culture, vaccine production, etc.
Chemical industry: used for storing and mixing high-purity chemicals.
Material and surface treatment
Material: Usually made of 304 or 316L stainless steel, it has corrosion resistance, non toxicity, and no detachment.
Surface treatment: The inner surface undergoes mirror polishing, with a roughness Ra ≤ 0.4 μ m (some products can reach Ra ≤ 0.28 μ m), reducing material residue and facilitating cleaning.
hygienic design
No hygiene dead corners: The tank design avoids dead corners, with smooth transitions at all connections and no residue accumulation.
Head design: Using standard elliptical or butterfly shaped heads, with rounded corners hydraulically formed to ensure cleanliness.
Pipe mouth design: Smooth transition at the pipe mouth connection, and stress relief treatment for the weld seam.
Cleaning and disinfection function
CIP (In Place Cleaning): Equipped with cleaning balls or rotating nozzles, it covers the inner wall of the tank with high-pressure water flow to achieve automatic cleaning.
SIP (In Place Sterilization): Supports high-temperature steam or hot water sterilization to ensure no microbial residue.
Acid pickling passivation: The inner surface is treated with acid pickling passivation to enhance corrosion resistance.
Insulation and cooling function
Insulation layer: Polyurethane or rock wool insulation can be selected, with a thickness of 50-100mm, to maintain stable temperature inside the tank.
Jacket design: Some tanks are equipped with jackets, which can be used for heating or cooling.
Operational convenience
Manhole and sight glass: Equipped with large-diameter manholes and sight glasses for easy observation and operation.
Liquid level gauge and breathing valve: equipped with accessories such as liquid level gauge and breathing valve to ensure safety and easy operation.
The cleaning and disinfection of advanced sanitary tanks are key steps in ensuring hygiene standards, usually using the following techniques:
CIP (Cleaning in Place)
technological process:
Pre rinsing: Rinse the interior of the tank with warm water (50-60 ℃) to remove most of the residue.
Chemical cleaning: Use acidic or alkaline cleaning agents to remove dirt through cyclic spraying.
Rinse: Rinse with clean water to remove residual cleaning agents.
Final rinsing: Rinse with purified water or injection water to ensure no residue.
Cleaning agent:
Acidic cleaning agents (such as nitric acid): remove inorganic dirt.
Alkaline cleaning agents (such as sodium hydroxide): remove organic dirt.
Advanced sanitary tank is a sealed container that meets hygiene standards, mainly used for storing, mixing, reacting, or transporting liquids, slurries, and other materials. Its design and manufacturing strictly follow hygiene standards to ensure that materials are not contaminated during storage and processing, while also being easy to clean and disinfect.
Food industry: used for storing milk, juice, edible oil, syrup, etc.
Pharmaceutical industry: used for storing drug solutions, injection water, culture media, etc.
Biological products industry: used for cell culture, vaccine production, etc.
Chemical industry: used for storing and mixing high-purity chemicals.
Material and surface treatment
Material: Usually made of 304 or 316L stainless steel, it has corrosion resistance, non toxicity, and no detachment.
Surface treatment: The inner surface undergoes mirror polishing, with a roughness Ra ≤ 0.4 μ m (some products can reach Ra ≤ 0.28 μ m), reducing material residue and facilitating cleaning.
hygienic design
No hygiene dead corners: The tank design avoids dead corners, with smooth transitions at all connections and no residue accumulation.
Head design: Using standard elliptical or butterfly shaped heads, with rounded corners hydraulically formed to ensure cleanliness.
Pipe mouth design: Smooth transition at the pipe mouth connection, and stress relief treatment for the weld seam.
Cleaning and disinfection function
CIP (In Place Cleaning): Equipped with cleaning balls or rotating nozzles, it covers the inner wall of the tank with high-pressure water flow to achieve automatic cleaning.
SIP (In Place Sterilization): Supports high-temperature steam or hot water sterilization to ensure no microbial residue.
Acid pickling passivation: The inner surface is treated with acid pickling passivation to enhance corrosion resistance.
Insulation and cooling function
Insulation layer: Polyurethane or rock wool insulation can be selected, with a thickness of 50-100mm, to maintain stable temperature inside the tank.
Jacket design: Some tanks are equipped with jackets, which can be used for heating or cooling.
Operational convenience
Manhole and sight glass: Equipped with large-diameter manholes and sight glasses for easy observation and operation.
Liquid level gauge and breathing valve: equipped with accessories such as liquid level gauge and breathing valve to ensure safety and easy operation.
The cleaning and disinfection of advanced sanitary tanks are key steps in ensuring hygiene standards, usually using the following techniques:
CIP (Cleaning in Place)
technological process:
Pre rinsing: Rinse the interior of the tank with warm water (50-60 ℃) to remove most of the residue.
Chemical cleaning: Use acidic or alkaline cleaning agents to remove dirt through cyclic spraying.
Rinse: Rinse with clean water to remove residual cleaning agents.
Final rinsing: Rinse with purified water or injection water to ensure no residue.
Cleaning agent:
Acidic cleaning agents (such as nitric acid): remove inorganic dirt.
Alkaline cleaning agents (such as sodium hydroxide): remove organic dirt.