Fiberglass chemical storage tank

The fiberglass chemical storage tank itself is lightweight, but its strength is still high. Its tensile strength will be stronger than that of carbon steel material. The strength can be comparable to certain advanced alloy steels. Therefore, this product can be used in China's aviation industry and rocket manufacturing industry.

The corrosion resistance of fiberglass chemical storage tanks is also very good. It has good resistance to corrosive environments such as acids, alkalis, and salts at certain concentrations, and can be used in many chemical and anti-corrosion industries. The electrical performance of the product is also very good because the raw materials used have more insulation advantages. The microwave transmission performance of this product is also very good. Can be used for radar antenna covers. 1. Collect process design data: Know temperature, pressure, maximum operating pressure, maximum operating temperature, minimum operating temperature, corrosiveness, qualitative, vapor pressure, and the input and output of the medium to be stored in the FRP storage tank as basic data for design.

2. Choose the material for the storage tank: For chemical storage, the corrosiveness of the medium is an important factor to consider when storing materials. According to work pressure and temperature, enamel containers and enamel glass containers can be used instead of corrosive materials. Steel pressure vessels can also be lined with rubber, porcelain, and polytetrafluoroethylene to improve their corrosion resistance.

3. Determine the type of storage tank: Choose the type of storage tank, including horizontal or vertical and head type. According to the requirements of the process conditions in the design process, select container types from the national standard series of containers that match various parameters of the process conditions (working pressure, working temperature, medium, volume).

4. Determine the total volume of the medium to be stored: The total volume of the material to be stored will be described later.

5. Determine the number of storage tanks and accurate measurement dimensions: After rounding, divide the total volume of materials to be stored by the appropriate tank volume. The appropriate volume of a storage tank is determined after comprehensive consideration of the tank type, the nature of the stored materials, the size of the available site, and the processing capacity of the equipment. After preliminarily determining the appropriate volume of the storage tank, divide the total volume of required materials by the total volume. The value obtained from the appropriate volume of the storage tank is the rounded desired effect. After determining the quantity, it is necessary to return and adjust the initial appropriate volume to obtain the volume of the storage tank.