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FRP (Fiberglass Reinforced Plastic) Water Tanks are available in different types that serve particular functions in an industry.
Modular FRP Water Tanks
Modular FRP Water Tanks are assembled from standard-sized sections that can be fitted together in various configurations to meet the specific needs of a location. They offer great design flexibility and can be easily transported to assembly sites. Modular tanks also have the benefits of FRP water tanks.
Deep-Dished FRP Water Tanks
Deep-Dished FRP Water Tanks have a shape similar to a dish, with the edge slightly raised and the middle lowered. This design can help to prevent the accumulation of standing water on the tank top and thus reduce the risk of algae growth and other contamination. It can also enhance the structural strength and durability of the tank.
Vertical FRP Water Tanks
Usually, vertical FRP water tanks are cylindrical shape. Vertical FRP water tanks occupy small space and have large storage capacity. They are suitable for household use and industrial production.
Horizontal FRP Water Tanks
Horizontal FRP Water Tanks are positioned parallel to the ground. Although they are usually smaller than vertical FRP tanks, they are easier to install and maintain. Also, the distribution of fluids within horizontal tanks is more uniform, reducing the need for periodic cleaning.
FRP tank specifications vary according to the manufacturers' production, but here are some general specifications and their descriptions:
Construction
It includes the length, width, and height of the tank. FRP water tanks are available in different sizes from small to large. Small tanks can be used for residential water storage, while large industrial water tanks can be used for commercial water storage.
Volume
It refers to the actual storage capacity of the tank. FRP water tanks offer different volume capacities. For example, it can be from 3,000 liters to 100,000 liters or more. Small-volume tanks are ideal for households, while large-volume tanks are suitable for industries or commercial places.
Wall thickness
The thickness of the tank wall affects the durability and insulation of the water tank. FRP water tanks are available in options from 10 mm to 30 mm or more. A thicker wall provides better insulation and durability but is more expensive.
Temperature tolerance
It is the ability of the tank to withstand high and low temperatures. FRP water tanks can be designed with temperature tolerance from -40°C to 100°C. Tanks with a wider temperature tolerance can be used in extreme weather conditions.
Weight
It is the lightness or heaviness of the water tank. FRP water tanks are usually lighter than traditional materials like concrete and metal. A lighter tank is easier for installation, transportation, and handling.
Some general maintenance tips for FRP water tanks
Regular inspection
Regularly inspect the tank for signs of damage, such as cracks, leaks, or deformations. Check the water quality periodically to ensure there are no contaminants or bad odors.
Cleaning
Cleaning the surface of the tank and the accessories like the inlet, outlet, and overflow regularly. Make sure there's no accumulation of dust, algae, or other contaminants. For those FRP water tanks with a removable lid, clean the interior of the tank regularly, too.
Preventive measures
Use protective coatings or additive materials to enhance the durability and resistance of the tank, such as UV protection or anti-corrosion additive materials. Install insulation materials to keep the temperature of the water in the tank and prevent temperature changes from damaging the tank.
Repair
If any damage is found during the inspection, take timely repair measures. For example, use waterproof glue or repairing kits to repair small cracks and leaks, or contact professional technicians for repairing services for large-scale damages.
Regular maintenance
Regularly maintain the accessories of the tank, such as the sealing components, valves, and pipelines. Inspect and clean them regularly to ensure there are no leaks or blockage issues. Lubric the moving parts, such as the valves, to ensure smooth operation.
As a storage container for ubiquitous water resources, FRP water tanks have been widely used in various fields.
Industry
FRP water tanks provide process water, cooling water, boiler feed water, washing water, fire water, etc. for manufacturing industries like chemical industry, electric power, beverage production, food processing, etc. They can also be combined with other equipment to act as reaction tanks, fermentation tanks, etc.
Municipal
FRP water tanks play an essential role in urban construction. They can be used for municipal water supply, rainwater collection and recycling systems, fire water systems, etc. Moreover, underground FRP water tanks are used to store and treat sewage and wastewater. Thus, they can reduce pollution and safeguard the public water supply.
Agriculture
In modern agriculture, FRP water tanks have been utilized in large-scale irrigation, livestock breeding, agricultural product processing, and agricultural water treatment. Securing an uninterrupted water supply for crops and livestock is vital for every aspect of agriculture; FRP water tanks provide that.
Transportation
At airports, seaports, and bus and railway stations, FRP water tanks are used for passengers to provide drinking water and other services. Fire water tanks can also improve the transportation systems’ fire safety.
Medical
In the medical field, FRP water tanks are also widely used. FRP water tanks can be sterile and clean, which is fit for storing medicines. FRP water tanks can be used to store sanitizing liquids and medicines, thereby providing disease resistance and filtering services.
Commercial
In the commercial field, FRP water tanks can be used to store technical liquids for commerce, trade, and storage and logistics. Shopping centers, hotels, restaurants, and dormitories also need the FRP water tank for their water supply and sanitary needs.
Both business buyers and consumers need to carefully choose an FRP water tank. They should focus on the key characteristics of an FRP water tank. The selection criteria are applicable to buyers who need to purchase and sell these tanks for profit.
Durability in Storage
A business buyer should ensure that an FRP water tank has great corrosion resistance, environmental resistance, and aging resistance. The tank should also have good stability and not alter the flavor of stored water.
Cost of Purchase
Retail buyers usually consider the initial purchasing cost. However, business buyers need to consider the total cost of purchasing FRP water tanks. Focus on the cost of transportation and installation in addition to the initial cost. Select suppliers who offer free transport or installation services at an affordable price.
Preferred Customization
Custom tanks are more expensive than standardized options, but they usually offer better performance. Ask suppliers if they can create custom tanks. Particular features such as additional strength or size can be considered for customization.
Warranty Length
For a warranty, its length is important for task-specific water tank selection. A tank for industrial use will normally have a longer warranty than one used for domestic purposes. This is because tanks for domestic use are more likely to be replaced over time due to changes in technology or preferences.
Installation Ease
A complex installation process can raise the total cost of purchasing water tanks. Most FRP tanks make installation easy due to their lightweight. Buy tanks that come with clear instructions or those that offer technical support during installation.
Q1: What is the life span of an FRP water tank?
A1: FRP tanks typically last more than 30 years with proper maintenance.
Q2: How do FRP tanks react to temperature changes?
A2: FRP tanks resist temperature variations. They keep the water cool in high temperatures and vice versa without any thermal contraction or expansion.
Q3: Is there any leakage in FRP tanks?
A3: FRP tanks are 100% leak-proof if installed correctly. The chemical co-reactive, bonding, and overlap techniques used during tank manufacturing create homogeneous joints that prevent leaks.