Intermediate Bulk Containers (IBC totes) are versatile storage and transportation solutions widely used across various industries for liquids, semi-liquids, and granulated materials. Understanding their lifespan is crucial for businesses and individuals to maximize their investment and ensure safe usage over time.
Average Lifespan
The typical life expectancy of an IBC tote ranges from 5 to 10 years with proper care and maintenance. However, this timeframe can vary significantly based on several factors:
- Some high-quality IBC totes can last up to 20 years when used and maintained correctly
- Under good conditions, IBC totes for water storage last over 5 years
- Industrial-grade IBC totes for chemical storage can vary in lifespan. This depends on the materials used and the types of substances they hold
- An IBC tote usually lasts about five years. However, with good care, it can last much longer
Indirectly about their reliability perfectly speaks of a huge secondary market of used IBC totes and its size, as well as the state of such offers. So for example you can study the volume of offers in your state through the Repackify. On average, you can buy used versions of totes from $30. Which is much more profitable and cheaper than new versions that start at $200.
Factors Affecting Lifespan
Material Composition
The materials used in IBC tote construction significantly impact their durability and longevity:
HDPE (High-Density Polyethylene)
Most IBC tote products are made from high-density polyethylene. This strong plastic is famous for its strength. It can resist chemicals and weather damage. These containers resist UV rays and corrosion. They are FDA, ANSI, and NSF 61 certified for food use. With proper care, they can last 5 to 20 years.
Stainless Steel
Great for high-temperature or flammable uses. Grades 304 and 316L resist corrosion well. The key materials for making stainless steel are ferronickel, ferrochrome, and scrap steel.
Carbon Steel
Typically, it costs less than stainless steel. It has lower resistance to heat and corrosion. Yet, you can strengthen some properties through forging and heat treatment.
Galvanized Steel Components
The outer frame of caged IBCs uses galvanized steel. This design prevents rust and increases stability, strength and impact resistance.
Environmental Conditions
Environmental factors play a crucial role in determining how long an IBC tote will last:
Sunlight Exposure
IBC plastic can get brittle after years in the sun. The top of the tote usually degrades first since it gets more direct UV radiation. UV exposure often makes the top of an IBC tote brittle first. It usually gets the most sunlight and for the longest time.
Temperature Extremes
IBCs should not be exposed to temperatures over 120°F, inside or out. Also, keep contents from freezing in the tote. Both situations can harm the plastic. Most poly IBC totes can handle a maximum fill temperature of 140°F (60°C). They are rated for a constant temperature of 120°F (49°C).
Storage Location
Totes stored outside without any protection usually do not last as long as those in controlled environments. Some IBC totes have been known to last more than 5 years while sitting in the sun and storing water.
Contents and Chemical Compatibility
What you store in an IBC tote significantly affects its useful life:
Corrosive Chemicals
Can reduce the lifespan of containers, especially if the tote material isn’t fully resistant to what’s stored inside. The material(s) an IBC handles is probably the most important factor in its service life.
Water Storage
It’s usually less harmful to totes. This helps them last longer if you maintain them well. If the poly tote is carrying an inert cargo, such as water, this will not be a concern to the IBC’s lifespan.
Material Compatibility
It’s important to match the tote material with the chemical. For strong acids, use poly IBCs. For solvents and petroleum-based liquids, choose stainless steel.
Maintenance Requirements
Regular maintenance can significantly extend the life of IBC totes:
Inspection Schedule
External Visual Inspection
Check for cracks, damage, and proper function of components every 30 months (2.5 years). The U.S. government says all IBCs need inspection after they are made. Then, they must be inspected every 2.5 years.
Internal Inspection
It’s best to do this every five years. This checks thickness, markings, and any internal damage. After every five years, totes must be inspected internally to look for any damage to the liner.
Pressure Testing
Do this every 30 months. It ensures the tote keeps the right pressure levels, which is 2.9 PSIG for many uses. Stainless steel tote tanks certified to UN/DOT standards must be tested every 30 months. A metal thickness test is required every 60 months.
Cleaning and Care
Proper cleaning and handling practices help maximize IBC tote lifespan:
Professional Cleaning
Hire cleaning services for a deep clean of totes that contained hazardous materials. If you’re not sure how to clean an IBC tote, hire a pro. They can do it right for you.
Careful Handling
Train staff to move and transport totes safely to avoid damage. Use caution when moving or lifting totes.
UV Protection
Use UV-resistant covers, paint, or shading structures to protect totes from sun damage. Select a premium IBC product that includes UV inhibitors in the plastic from the start.
Regulatory Considerations
IBC totes that carry regulated materials must follow specific testing and certification rules:
UN/DOT Certification
Stainless steel tote tanks must be tested every 30 months to meet UN/DOT standards. An IBC needs a valid test certificate to transport regulated products.
Recertification
Mark the date of the latest periodic retest on the tank. Place it near the metal serial number plate. If there’s a retest date, it must be marked on the container, near the metal certification plate.
Transportation Regulations
An IBC must not be filled or shipped if its inspection period has run out. If IBCs fail inspections or tests, they must be taken out of hazardous materials transport. They can only be used again once they are restored to their original design type.
Pressure Testing Standards
A hydrostatic pressure test is needed for all metal, rigid plastic, and composite IBC designs. This applies to IBCs that hold solids under pressure or contain liquids.
Food Grade Certification
Food-grade IBC totes must meet FDA and ANSI/NSF 61 standards. This ensures they are safe for drinking water and food use.
Extending IBC Tote Lifespan
Several strategies can help extend the useful life of IBC totes:
UV Protection Methods
- Using UV-resistant covers to shield totes from UV radiation
- Applying white paint to reflect more light and reduce UV radiation
- Wrapping the IBC in insulative materials
- Building DIY shading structures over or around the IBC tank
- Using specialized UV hoods or hardtop spill containment pallets
Proper Storage
Store totes in a controlled area. Keep them away from extreme heat, cold, and direct sunlight.
Regular Maintenance
Following manufacturer guidelines for inspection, cleaning, and repair. Regular maintenance of an IBC is key to extending its plastic lifespan.
Correct Usage
Use the tote correctly. Make sure it fits the materials you store. Don’t exceed the recommended weight or pressure limits. IBCs are not designed to hold pressure, be pressurized, or serve as pressure vessels.
End-of-Life Considerations
When an IBC tote reaches the end of its useful life, several options exist:
Reconditioning
Replacing damaged components with new ones conforming to the original design specifications. Drum and IBC reconditioning is about restoring used containers. It offers a green and affordable choice for the market.
Remanufacturing
Adapting totes to new design types for continued use in different applications. By opting for remanufactured totes, industries take a step forward in reducing waste and promoting a circular economy.
Recycling
Properly disposing of totes that can no longer be reconditioned or remanufactured. The standard method for metal IBC totes is to melt the metal. Then, it is reformed into new products. For plastic IBCs, the process is different. They are shredded into small pieces, washed, and melted into pellets. These pellets are used to make new plastic products.
Market Growth
The reconditioning market is projected to hit $207.5 million by 2027. This shows a CAGR of about 4.5% from 2023 to 2027.
Advanced Applications and Industry Uses
IBC totes serve numerous industries and applications beyond basic storage:
Construction Industry
Plastic IBC totes are perfect for storing construction chemicals. They hold solvents, adhesives, and sealants. Also, they are great for water storage used in dust suppression and concrete mixing.
Agricultural Applications
IBCs are widely used in irrigation systems. They help collect rainwater and provide water for livestock. Also, they serve as garden beds for growing vegetables and herbs.
Aquaponics and Food Production
IBC totes are popular in aquaponics systems. They are also useful for composting organic waste.
Chemical and Industrial
Most IBC totes are made from high-density polyethylene (HDPE) or stainless steel. They come in sizes from 180 to 550 gallons. They hold almost every liquid, powder, or granulated product.
Cost-Effectiveness and Economic Benefits
IBC totes provide significant economic advantages:
Durability and Reusability
IBC tanks are tough. They handle transportation and storage well. With good care, they can last for many years.
Space Efficiency
IBC totes stack easily. This saves space and improves storage. It helps with logistics and cuts costs.
Cost Savings
Using IBC totes again and again can save a lot of money when compared to single-use packaging. Reconditioned totes are tested to meet industry standards. They are just as reliable as new ones, but cost much less.
Knowing the factors that affect IBC tote lifespan allows businesses to make better decisions. This includes when to buy, maintain, or replace totes. These choices improve their return on investment.