How to transport fiberglass tanks? What should be noted?

1. During transportation, utilize the soft rope and crane to hoist the fiberglass tanks, then safely place them on pre-prepared wooden boards. For smaller fiberglass tanks, wrap the forks of a forklift with soft padding and use the forklift to position the tanks on the boards.

2. If the fiberglass storage tank is not to be installed temporarily, it should be placed on a stand and securely fastened during use to prevent rolling.

3. Fiberglass storage tanks require sealed preservation before their paint is applied, as moisture can affect the painting quality. Additionally, if the paint concentration is too high, it should be diluted.

4. In many transportation and containment operations, large fiberglass storage tank systems are often indispensable to their important carriers, as many liquid materials are characterized by complexity, thus relying heavily on specialized application materials.

5. Glass-fiber reinforced plastic storage tanks should not be loaded randomly on top during use. Atmospheric pressure storage tanks within the equipment are prohibited from being used under vacuum. Glass-fiber reinforced plastic storage tanks should not be subjected to loads, and anti-vibration measures must be effectively implemented in areas with vibration sources.

6. Fiberglass storage tanks should not be approached with fire during operation and should be kept away from heat sources. The equipment's high working pressure should not exceed its planned value. During operation, unless specifically planned, vibration sources such as cold and hot pipes should be isolated from the tank's support structure.

7. Fiberglass storage tanks primarily operate as static hydraulic tanks connected to the atmosphere, especially those vertical flat-bottomed tanks. During their use, they require the tank body to be pressurized, ensuring that pressure is maintained regardless of emptying, feeding materials, or temperature changes.

8. Glass-fiber reinforced plastic storage tanks are subject to pressure from the liquid within their walls during operation. The wind load on the equipment directly leads to vertical stresses, as well as the influence of the tank's own weight and various other pressures. The magnitude of the pressure on the equipment varies with its height.