Product
BaliGEOTEX
Modular Tank
Welcome to BaliGEOTEX, the premier Indonesian geosynthetic manufacturer and exporter offering a wide range of high-quality products including geotextile woven, Geotextile non woven, Geomat, Geobag, Geomembrane, Geotube, Geogrid, Geocell, Modular Tank and Drainage Cell.
Modular tanks provide an innovative, efficient storage solution for various industries. Their modular design allows easy assembly and customization to meet specific needs, making them ideal for storing liquids like water or chemicals. These tanks are durable, constructed from materials resistant to corrosion and UV radiation, ensuring long-term integrity. Their simple assembly and disassembly process save time and reduce installation costs. Additionally, modular tanks offer easy access for maintenance, making them suitable for both small and large-scale projects, including rainwater harvesting, firefighting, and industrial applications.
Modular tanks offer cost-effective, flexible solutions for liquid storage, reducing labor costs and construction time due to their easy assembly and modular design. Their scalability allows for quick adjustments in capacity, optimizing storage efficiency. Environmentally friendly, they support rainwater harvesting and use recyclable materials, promoting sustainable water management and waste reduction. Durable and versatile, modular tanks are ideal for various applications, from industrial to firefighting needs. Embrace modular tanks for efficient, eco-friendly liquid storage, optimizing capacity while minimizing costs and installation time.
Product Knowledges
Product Specifications : 390 mm (W) × 410 mm (H) × 782 mm (D)
Material : 90% recycled polypropylene +
10% additional ingredients
Available colors : Black
Strength :
– 18.7 tons/m2 – 3 Stabilizers
– 24.4 tons/m2 – 4 Stabilizers
– 27.8 ton/m2 – 5 Stabilizers
Resistant : Against chemicals and biology
Frequently Asked Questions
What are the advantages of using a modular tank over traditional storage tanks?
Modular tanks offer several advantages over traditional storage tanks, making them a preferred choice for various applications. Here are the key advantages:
Cost-Effectiveness: Modular tanks are more cost-effective than traditional storage tanks. Their modular design allows for easy assembly and disassembly, reducing labor and installation costs. Additionally, users can expand or downsize the tanks as needed, eliminating the need for significant upfront investments in larger storage facilities.
Flexibility and Scalability: Modular tanks come in various sizes and configurations, offering exceptional flexibility and scalability. Whether it’s a small-scale agricultural operation or a large industrial project, these tanks can be tailored to suit specific water storage requirements. Traditional tanks, on the other hand, are often fixed in size and may not be easily adaptable to changing needs.
Ease of Installation and Relocation: Setting up and relocating traditional tanks can be time-consuming and complicated. In contrast, modular tanks can be assembled quickly and disassembled with ease, significantly reducing downtime during setup or when moving to new locations. This advantage is particularly valuable for industries and projects with rapidly changing water storage needs.
Minimal Environmental Impact: Day use modular tanks present a greener water storage option compared to traditional tanks. Their temporary and modular nature ensures minimal disruption to the environment during installation and dismantling. Moreover, they can be placed on various terrains without causing significant ecological disturbances.
Versatility in Applications: Modular tanks can be used for a wide range of applications. They are popular in agriculture for irrigation and livestock needs, in construction and mining industries for temporary water supply, and in emergencies for immediate water supply in disaster-stricken areas. Traditional tanks may not be as versatile or adaptable to different settings.
Durability and Safety: Modular tanks are often constructed using high-quality, durable materials, such as high-density polyethylene (HDPE) or reinforced polypropylene, ensuring longevity and safety. Traditional tanks may not always offer the same level of structural integrity and resilience.
Reduced Maintenance Costs: Due to their easy assembly and design, modular tanks generally have lower maintenance costs compared to traditional tanks. Regular inspections and preventive measures can help extend their lifespan and keep them functioning optimally.
Water Quality Assurance: Day use modular tanks are designed to maintain water quality. The materials used in their construction are non-toxic and food-grade, preventing any chemical leaching into the stored water. Proper maintenance and cleaning further safeguard water quality.
Space Efficiency: In scenarios where space is limited, modular tanks provide an advantage. Their flexible design allows for better space utilization, making them suitable for tight or constrained locations.
Overall, the advantages of using modular tanks over traditional storage tanks make them an attractive and practical choice for water storage needs in various industries, communities, and emergency situations.
Can modular tanks be used for storing different types of liquids?
es, modular tanks can be used for storing different types of liquids, not just water. The versatility and adaptability of modular tanks make them suitable for various liquid storage applications. The tanks are designed to be compatible with a wide range of liquids, including but not limited to:
Chemicals: Many modular tanks are constructed from materials that are resistant to corrosion and chemical reactions. This makes them ideal for storing various chemicals used in industries, laboratories, and agricultural applications.
Fuels: Modular tanks can be used to store fuels like diesel, gasoline, and biodiesel. These tanks are commonly employed in construction sites, remote work locations, and emergency refueling stations.
Wastewater: Modular tanks with appropriate lining and sealing can be used to store wastewater temporarily. This is especially useful in construction projects or events where wastewater needs to be collected and treated properly.
Food-Grade Liquids: Some modular tanks are specifically designed for storing food-grade liquids like fruit juices, milk, and other beverages. These tanks are made from food-safe materials and comply with health and safety standards.
Oils and Lubricants: Modular tanks can also be used for storing various types of oils and lubricants in industrial settings, agricultural machinery, and transportation.
Liquid Fertilizers: In the agricultural sector, modular tanks can be utilized to store liquid fertilizers, providing a convenient solution for efficient application to crops.
Wine and Other Alcoholic Beverages: Wineries and breweries often use specialized modular tanks for fermenting and storing wine, beer, and other alcoholic beverages.
Rainwater: Apart from traditional water storage, modular tanks can also be employed for rainwater harvesting and storage, contributing to sustainable water practices.
It’s important to note that when using modular tanks for storing different types of liquids, it’s essential to select tanks made from materials suitable for the specific liquid to be stored. Proper cleaning, maintenance, and adherence to safety guidelines are also crucial to ensure the integrity and suitability of the tank for the intended liquid storage purpose. Additionally, local regulations and permits may be required for storing certain types of liquids, especially hazardous chemicals or substances.
How durable are modular tanks, and can they withstand harsh environmental conditions?
Modular tanks are designed to be highly durable and can withstand a wide range of harsh environmental conditions. The durability of these tanks is influenced by the materials used in their construction, the engineering design, and the quality of manufacturing. Here are some key factors that contribute to the durability of modular tanks:
Material Selection: Modular tanks are typically made from high-quality materials, such as high-density polyethylene (HDPE) or reinforced polypropylene. These materials are known for their excellent strength, resistance to corrosion, and durability, ensuring the tanks can withstand external stressors and harsh conditions.
Weather Resistance: Modular tanks are engineered to be weather-resistant, capable of withstanding exposure to the elements, including extreme temperatures, UV radiation, and heavy rainfall. Their robust construction prevents degradation caused by prolonged exposure to the sun or adverse weather conditions.
Structural Integrity: The design of modular tanks focuses on maintaining structural integrity under various loads. They are engineered to withstand the weight of the stored liquid and any potential environmental forces, such as wind or seismic events, without compromising their stability.
Impact Resistance: Modular tanks are designed to be impact-resistant, reducing the risk of damage from accidental impacts or collisions. This is especially important in industrial settings or areas with heavy equipment and machinery.
Chemical Resistance: Depending on the intended application, some modular tanks are manufactured to be chemically resistant. They can safely store various chemicals without reacting or degrading due to the liquid’s properties.
Corrosion Resistance: The materials used in modular tanks are often resistant to corrosion, preventing degradation over time when in contact with water or other corrosive substances.
Proper Installation and Maintenance: The durability of modular tanks also depends on proper installation and regular maintenance. Following manufacturer guidelines and conducting routine inspections and cleaning will help extend the tanks’ lifespan and ensure they remain in optimal condition.
Portability and Relocation: Modular tanks’ ability to be assembled and disassembled easily allows for relocation to different sites as needed. This flexibility ensures the tanks can be moved away from potential hazards or adverse conditions, preserving their durability.
In summary, modular tanks are designed to be highly durable and can withstand a variety of harsh environmental conditions. Their resistance to weather, impact, corrosion, and chemicals makes them suitable for diverse applications across industries and environments. By choosing high-quality materials, adhering to installation guidelines, and conducting regular maintenance, users can maximize the lifespan and performance of modular tanks, making them a reliable and long-lasting solution for liquid storage needs.
What are modular tanks made of?
Modular tanks are typically made from a variety of high-quality materials that ensure their durability, strength, and suitability for various liquid storage applications. The specific material used may vary based on the type of liquid to be stored, the size and capacity of the tank, and the intended application. Here are some common materials used in the construction of modular tanks:
High-Density Polyethylene (HDPE): HDPE is a popular material for modular tanks due to its excellent strength, chemical resistance, and durability. It is capable of withstanding a wide range of temperatures and is not susceptible to corrosion, making it ideal for storing various liquids, including water, chemicals, and food-grade substances.
Reinforced Polypropylene: Reinforced polypropylene is another material commonly used for modular tanks. It offers good chemical resistance, impact strength, and stability, making it suitable for storing aggressive chemicals and hazardous substances.
Fiberglass Reinforced Plastic (FRP): FRP is a composite material that combines fiberglass reinforcement with a plastic resin matrix. It provides high strength, corrosion resistance, and is particularly suitable for storing corrosive liquids in industrial settings.
Stainless Steel: In certain cases, modular tanks may be constructed from stainless steel, especially when storing liquids that require specific sanitary conditions or are highly corrosive.
Food-Grade Materials: Modular tanks designed for storing food and beverages use food-grade materials, such as food-safe plastics, to ensure the stored liquids remain safe and free from contamination.
PVC (Polyvinyl Chloride): PVC is used in some smaller modular tanks or as a liner material. While not as robust as HDPE or reinforced polypropylene, PVC can be suitable for certain non-hazardous liquid storage applications.
Polyethylene Terephthalate (PET): PET is commonly used in smaller modular tanks for storing liquids like water or beverages for household or small-scale applications.
The choice of material depends on factors such as the liquid’s properties, the tank’s intended use, and regulatory requirements. Manufacturers often ensure that the materials used comply with industry standards and safety guidelines to guarantee the tanks’ quality and suitability for specific applications.
Regardless of the material, modular tanks are designed to be durable, weather-resistant, and capable of withstanding various environmental conditions, making them a reliable solution for liquid storage needs in a wide range of industries and settings.
How are modular tanks assembled?
The assembly of modular tanks is designed to be straightforward and efficient, allowing for easy installation and disassembly. The specific assembly process may vary slightly depending on the manufacturer and the type of modular tank being used. Here’s a general outline of how modular tanks are typically assembled:
Preparation: Before assembly, ensure that the installation site is level and stable. Clear any debris or obstacles that might interfere with the tank’s placement.
Unpacking and Lay Out: Unpack all the components of the modular tank and lay them out in an organized manner. This helps ensure that all parts are present and accessible during assembly.
Base and Bottom Ring: Begin by assembling the base of the tank. Some modular tanks have a bottom ring or frame that provides stability and support. Connect the bottom ring to form a stable foundation for the tank.
Side Panels: Attach the side panels to the bottom ring or base. Depending on the tank’s design, the side panels may have interlocking features, bolts, or clips that allow them to securely connect to one another.
Corner Braces: If the tank design includes corner braces, install them to reinforce the tank’s structural integrity. Corner braces help maintain the tank’s shape and prevent bulging or deformation.
Roof and Top Ring: Once the side panels are in place, install the roof of the tank. Some modular tanks come with a top ring that connects the side panels and the roof. This ring adds stability to the tank structure.
Liner or Seal: For tanks that store liquids requiring a seal or liner, ensure it is properly installed to prevent leaks and maintain the liquid’s integrity.
Bolting and Tightening: Securely bolt all the components together according to the manufacturer’s guidelines. Use the appropriate tools and ensure that all connections are tight and properly aligned.
Inlet and Outlet Connections: Install the necessary inlet and outlet connections for filling and draining the tank. These connections should be watertight to prevent leaks.
Testing: After assembly, perform a thorough inspection of the tank to check for any potential issues or leaks. Conduct a water test to verify the tank’s integrity and proper functioning.
Optional Accessories: Depending on the tank’s purpose, additional accessories such as access hatches, level indicators, or overflow outlets may be installed.
It’s important to follow the manufacturer’s assembly instructions and safety guidelines carefully to ensure a successful and secure installation. Improper assembly may lead to structural weaknesses or leaks, compromising the tank’s performance and safety.
Modular tanks’ assembly process is designed to be user-friendly, making them suitable for a wide range of applications, including agricultural, industrial, commercial, and residential water storage needs.
What are the applications of modular tanks?
Modular tanks have a wide range of applications due to their versatility, flexibility, and ease of installation. These tanks are used in various industries and settings to meet diverse liquid storage needs. Some of the common applications of modular tanks include:
Agriculture and Irrigation: Modular tanks are widely used in the agricultural sector for storing water used in irrigation systems. They provide a reliable water supply to crops and livestock, ensuring efficient agricultural practices and water management.
Construction and Mining: In construction sites and mining operations, modular tanks serve as temporary water storage solutions. They provide water for construction activities, dust suppression, and equipment cooling.
Emergency Water Supply: During emergencies like droughts, natural disasters, or water supply disruptions, modular tanks are deployed to provide immediate and temporary water supply to affected areas.
Rainwater Harvesting: Modular tanks are used to collect and store rainwater for various purposes, including landscape irrigation, toilet flushing, and non-potable water needs.
Rural and Remote Communities: In areas with limited access to a centralized water supply, modular tanks play a vital role in providing water storage solutions for rural and remote communities.
Industrial Applications: Modular tanks are used in industrial settings for storing chemicals, fuels, wastewater, and other liquids required in the manufacturing and processing processes.
Residential Water Storage: In residential settings, modular tanks are used to store water for household needs, such as gardening, car washing, and flushing toilets.
Fire Protection: Modular tanks can be integrated into fire protection systems to provide a reliable water source for firefighting purposes.
Mobile and Temporary Applications: Modular tanks can be used in mobile or temporary setups, such as at events, festivals, and construction sites, where a portable and flexible water storage solution is needed.
Wastewater Management: Some modular tanks are designed for wastewater storage, allowing for the proper collection and treatment of wastewater in industrial or commercial facilities.
Aqua Culture: In aquaculture settings, modular tanks are used to create fish ponds and water storage units for fish farming.
Remote Work Sites: Modular tanks are often employed in remote work sites, such as oil and gas exploration sites, where a reliable water supply is required for various operations.
Food and Beverage Industry: In the food and beverage industry, modular tanks are used to store ingredients, process liquids, and wastewater.
Military and Disaster Relief: Modular tanks are used by the military and in disaster relief efforts to provide water storage solutions during missions and humanitarian operations.
The adaptability of modular tanks makes them suitable for a broad range of applications across various sectors. Whether it’s for water storage, liquid containment, or temporary water supply, modular tanks offer practical and efficient solutions for diverse liquid storage needs.
Are modular tanks customizable in size and capacity?
Yes, modular tanks are highly customizable in size and capacity. One of the key advantages of modular tanks is their flexibility, which allows users to tailor the tank’s size and capacity to meet specific storage requirements. Here’s how modular tanks can be customized:
Modular Design: Modular tanks are constructed using individual panels or components that can be assembled and connected to create the desired size and capacity. These panels come in various standard sizes, and multiple panels can be combined to achieve the desired dimensions.
Scalability: Modular tanks are designed to be easily scalable. Users can add more panels or sections to expand the tank’s size and increase its capacity. This scalability is particularly beneficial for industries or projects with changing water storage needs.
Flexible Configurations: Depending on the manufacturer, modular tanks may offer different configurations, allowing users to choose the number of panels and the tank’s shape to fit the available space or specific requirements.
Multiple Units: If a larger capacity is needed, multiple modular tanks can be installed side by side or stacked vertically to create a larger storage system. This modularity allows for greater flexibility in accommodating different capacities.
Custom Orders: Some manufacturers offer the option of customizing modular tanks according to the client’s specific requirements. This includes designing tanks with non-standard dimensions or capacities to meet unique storage needs.
Adaptable Accessories: Modular tanks often have compatible accessories that can further enhance their customization. These accessories may include various fittings, inlet and outlet options, level indicators, and covers.
Partial Fill Options: In some situations, it may be necessary to use a modular tank only partially filled to meet specific space limitations or water usage requirements. Modular tanks can accommodate partial fill without compromising their structural integrity.
Portability: The ability to disassemble and reassemble modular tanks allows for their easy relocation and adjustment of size or capacity as needed for different locations or projects.
The customizable nature of modular tanks makes them suitable for a wide range of applications across industries, communities, and emergency situations. Users can easily adapt the tanks to suit their water storage needs, whether it’s for small-scale residential use, large industrial projects, or emergency water supply in disaster-stricken areas.
Which water tank is best for water storage?
The best water tank for water storage depends on various factors, including the specific needs and requirements of the user, the available space, budget constraints, and the intended use of the stored water. Here are some common types of water tanks, each with its advantages and considerations:
Polyethylene (Plastic) Tanks: Polyethylene tanks, also known as plastic tanks, are popular for their affordability, lightweight, and corrosion resistance. They are available in various sizes and shapes, making them suitable for both above-ground and underground installations. Plastic tanks are often used for residential water storage, rainwater harvesting, and agricultural applications.
Steel Tanks: Steel tanks are known for their durability and strength. They can withstand harsh environmental conditions, making them suitable for outdoor and industrial use. Steel tanks are commonly used for large-scale industrial and commercial water storage needs. However, they may require proper maintenance and coating to prevent rusting and corrosion.
Fiberglass Tanks: Fiberglass tanks are lightweight and highly resistant to corrosion, making them an excellent choice for storing water, chemicals, and other liquids. They are commonly used in industrial settings, municipal water storage, and fire protection systems.
Concrete Tanks: Concrete tanks offer robustness and longevity. They are suitable for large water storage requirements and can be built above-ground or underground. Concrete tanks are often used for municipal water storage, agricultural water reserves, and wastewater treatment.
Galvanized Steel Tanks: Galvanized steel tanks are coated with zinc to prevent rusting. They are durable and can withstand harsh weather conditions. Galvanized steel tanks are commonly used for industrial water storage and rural water supply.
Bladder Tanks: Bladder tanks are flexible, collapsible tanks made of materials like PVC or polyurethane. They are suitable for temporary or emergency water storage needs and can be quickly deployed and folded when not in use.
Modular Tanks: As mentioned earlier, modular tanks offer flexibility, scalability, and ease of installation. They are customizable in size and capacity, making them suitable for various applications, including residential, industrial, and emergency water storage.
When choosing the best water tank for water storage, it’s essential to consider factors like the available space for installation, the desired capacity, the material’s compatibility with the stored water, maintenance requirements, and budget constraints. It’s recommended to consult with a reputable supplier or water storage expert who can assess your specific needs and recommend the most suitable water tank for your requirements.
What is the use of modular tank?
The use of a modular tank is to provide a reliable and customizable solution for storing liquids, primarily water. Modular tanks are designed with individual components or panels that can be easily assembled and disassembled, offering flexibility and versatility in their applications. Some common uses of modular tanks include:
Water Storage: Modular tanks are widely used for storing water in various settings, such as residential, commercial, industrial, and agricultural applications. They provide a reliable source of water for irrigation, firefighting, emergency water supply, rainwater harvesting, and more.
Temporary Water Supply: In construction sites, mining operations, and remote work locations, modular tanks are used to provide a temporary water supply for essential activities, equipment cooling, and dust suppression.
Emergency Water Reserves: During natural disasters or water supply disruptions, modular tanks can be quickly deployed to create emergency water reserves, ensuring a stable water supply for affected communities and relief efforts.
Rainwater Harvesting: Modular tanks are employed for collecting and storing rainwater, promoting sustainable water practices and reducing dependence on traditional water sources.
Agricultural Water Management: Farmers use modular tanks for water storage in agricultural settings, enabling them to store water for irrigation and livestock needs, especially in areas with limited access to water sources.
Fire Protection: Modular tanks can be integrated into fire protection systems to provide a readily available water source for firefighting purposes.
Wastewater Storage: In industrial settings, modular tanks are used for temporary wastewater storage before treatment or disposal.
Fish Farming: In aquaculture, modular tanks serve as fish ponds, providing a controlled environment for fish farming.
Temporary Liquid Containment: Modular tanks are used to contain and store various liquids, including chemicals, fuels, and food-grade substances, in industries where temporary storage is required.
Rural and Remote Water Supply: In rural and remote areas with limited access to centralized water supply networks, modular tanks are employed to store and distribute water to communities and farms.
Water Recycling and Reuse: Modular tanks can be part of water recycling systems, helping to collect and store treated wastewater for reuse in non-potable applications.
The adaptability and versatility of modular tanks make them suitable for a wide range of applications, and they are particularly valued for their ease of installation, scalability, and ability to meet specific water storage needs in various industries and communities.
How do you upgrade a modular tank?
Upgrading a modular tank typically involves improving its performance, capacity, or functionality. The process of upgrading may vary depending on the specific modifications or enhancements desired. Here are some common ways to upgrade a modular tank:
Increasing Capacity: If the existing tank no longer meets the water storage needs, you can upgrade it by adding more panels or sections to increase its capacity. Modular tanks are designed to be scalable, allowing for easy expansion as requirements change.
Adding Accessories: Upgrading a modular tank can involve adding accessories or additional components. This may include installing level indicators, overflow outlets, access hatches, or other features that enhance the tank’s functionality.
Replacing Components: Over time, certain components of the tank may wear out or become damaged. Upgrading the tank can involve replacing these components, such as damaged panels, seals, or fittings, to ensure the tank’s optimal performance.
Integrating Advanced Technology: Upgrading may involve incorporating advanced technology into the tank’s design. This could include adding smart sensors or monitoring systems to enable real-time tracking of water levels, temperature, or water quality.
Improving Water Quality: If the tank is used for potable water storage or sensitive applications, you may upgrade it by installing improved water filtration or purification systems to maintain water quality.
Enhancing Structural Integrity: Upgrading the tank’s structural integrity might involve reinforcing it with additional braces or supports, especially if the tank is subjected to harsh environmental conditions.
Changing Location or Configuration: In some cases, upgrading a modular tank might mean relocating it to a more strategic position or changing its configuration to better suit the site’s needs.
Coating and Insulation: Upgrading may involve applying new coatings or insulating materials to improve the tank’s resistance to corrosion, weathering, or temperature changes.
Before proceeding with any upgrades, it’s essential to consult with the tank’s manufacturer or a professional in water storage solutions. They can provide guidance on the best upgrades for your specific tank model, ensure compatibility with existing components, and assess any necessary structural changes.
Remember that safety is a priority during any tank upgrades. If you are unsure about any aspect of the upgrade process, it’s best to seek expert advice and assistance to ensure a successful and safe modification of the modular tank.