Bauer TYPE LIP-F 2900 Transport and storage container
- Also for critically defective batteries
- Max. energy density: 144 kWh
- Max. battery size: 2870 x 1670 x 620 mm
- External dimensions: 3200 x 2000 x 1120 mm
- No filling material required
Do you have some questions about this product?
- Your personal contact person
- Name: Petra Fürbeck
- E-Mail: info@lion-care.com
- Phone: +49 (0) 7151 - 256 4817
Technical data
| Battery status: | Critically defective |
|---|---|
| Encoding: | 50A |
| Filling material: | Fire protection panels |
| Included filler material: | without filler material |
| Internal dimensions (mm): | 2 870 x 1 670 x 620 |
| Material: | Steel |
| Max. gross weight (kg): | 2 146 |
| Maximum energy density (kWh): | 144 |
| Outer dimensions (mm): | 2,000 x 1,120 x 3,200 |
| Packaging group: | I |
| Packaging instruction according to ADR: | LP 903, LP 906 |
| Packaging type: | Dangerous goods large-packages (LP) |
| Suitable for critically defective?: | Yes |
| Tipping weight (kg): | 1 146 |
| Type: | Transport box |
| Volume (l): | 2 900 |
Product information „Bauer TYPE LIP-F 2900 Transport and storage container“
The transport container was developed for the safe transport of critically defective lithium-ion batteries. Unlike comparable metal boxes in packaging group I, no filling material is required here. This makes this container the ideal solution for internal storage and transport in all battery conditions. The container has been tested and meets the requirements of ADR/Packaging Instruction P 906 for max. 144 kWh BEV batteries. Please contact us if you have any questions.
Size and capacity of the battery transport container
The transport container has external dimensions of approx. 3200 x 2000 x 1120 mm (LxWxH). The interior dimensions of the box are 2870 x 1670 x 620 mm (LxWxH). The transport container's net weight is approx. 1146 kg. The maximum permissible total weight is 2146 kg. It is also approved as large steel packaging. The sturdy base frame can be accessed from all four sides by industrial trucks, and the clearance height is 100 mm. The packaging has been tested and meets the requirements of ADR/Packaging Instruction LP 906 for max. 144.5 kWh BEV batteries. Included is a drip tray with fire protection plate for collecting electrolyte. The cover is made of sheet steel with fire protection panels and has 2 drive-in pockets and 4 crane eyes for lifting the cover. In addition, the transport container is equipped with a positioning aid and collision protection.
Fire protection panels and fire protection plate
The fire protection panels are 100 mm thick and have a fire resistance class of EI 90 in accordance with EN 13501-2.
The fire protection plate is made of a non-combustible plate material with a thickness of 42 mm.
Use of the LIP-F 2900 transport and storage container
Before each use, the integrity of the container and all its components must be checked. Only trained and instructed personnel may be assigned to set up, store, move and transport the container. Depending on the battery (design, energy content, condition, etc.), the distance between the battery and the container walls may need to be adjusted. A forklift must be used to lift the cover off the base plate . Entry pockets for lifting are located on the lid of the container. The lithium-ion batteries are secured to the base plate using the tension straps provided.
Storage instructions
The storage of dangerous goods in defective and leaking transport containers is prohibited. The storage location must be on a level surface, well ventilated and under a roof. Care must be taken to ensure that the transport
container is protected from the weather, direct sunlight and radiant heat.
Transport instructions
All legal regulations and any markings and labels must be observed during transport. All container transfer and transport operations must be carried out using suitable and reliable means. Before transport, ensure that the cover is securely closed to the base frame.
Repair and disposal
Damaged transport containers must not be reused. Repairs may only be carried out by specialists authorised by the manufacturer or by the manufacturer itself. Contaminated components must be disposed of properly in accordance with their contamination.
Individual colour design possible
In this version, the container is finished in RAL 3000 fire red. Other colours are available on request. Please contact us if required.
Certification and guidelines
Lithium batteries fall into dangerous goods class 9. When transporting lithium batteries, numerous specifications and guidelines must therefore be observed. The transport box has been specially designed to meet the most stringent safety regulations.
Certified for packaging group I
The LIP-F 2900 container meets the requirements of packaging group I, which means that substances with a high risk potential may be transported in it. In order to achieve this classification, many test requirements must be met. These include, for example, various drop tests from a height of 1.8 metres. All packaging with the code "X" may be used for packaging groups I, II and III.
Also ideal for transporting new lithium-ion batteries in accordance with P 903/LP 903 and as a storage and quarantine box.
As no filling material is required, the container is also ideal as a quarantine container for defective batteries in order to isolate a possible fire from the outset. Thanks to its hazardous goods approval, critically defective batteries can be transported away immediately. In addition to critically defective batteries, the transport container is also suitable for the regular shipment of new goods in accordance with packaging regulation P 903/LP 903.
Future-oriented
Lithium-ion batteries will become indispensable in all industrial applications in the coming years. However, if used improperly, these batteries can pose a potential hazard that should not be underestimated during manufacture, storage and transport. By purchasing these boxes, you are protecting yourself against major financial losses right from the start.
Working for you
Please do not hesitate to contact us if you have any questions. We look forward to hearing from you!
| Battery status: | Critically defective |
|---|---|
| Encoding: | 50A |
| Filling material: | Fire protection panels |
| Included filler material: | without filler material |
| Internal dimensions (mm): | 2 870 x 1 670 x 620 |
| Material: | Steel |
| Max. gross weight (kg): | 2 146 |
| Maximum energy density (kWh): | 144 |
| Outer dimensions (mm): | 2,000 x 1,120 x 3,200 |
| Packaging group: | I |
| Packaging instruction according to ADR: | LP 903, LP 906 |
| Packaging type: | Dangerous goods large-packages (LP) |
| Suitable for critically defective?: | Yes |
| Tipping weight (kg): | 1 146 |
| Type: | Transport box |
| Volume (l): | 2 900 |
Downloads
FAQ
That depends on various factors that need to be considered:
- size of the battery(ies)
- condition (e.g. non-critical, defective, critically defective or prototype)
- power
Transport boxes are available in many different sizes and specifications. The packaging group for which the box is suitable is indicated for each product.
Find out more in our blog article:
https://www.lion-care.com/aktuelles/blog/transportvorschriften-regeln-und-sicherheitsmassnahmen
Even if the batteries are not critical, remember to protect them from shocks and to order appropriate filling material if it is not already included in the box.
Yes. Should a battery reach a critical state and cause a fire, separating the batteries will prevent the fire from spreading and multiplying.
Generally, the insulation and protection material should line all sides of the container. The batteries are stored between individual layers.
We also have containers in our program that already have the protective material integrated into the outer wall. No further protective layer is necessary here.
The technical principles for storage and transportation solutions are very similar. The transport boxes are also subjected to extensive tests in accordance with ADR (drop test, fire test, etc.) to confirm compliance with the ADR regulations. The packaging regulations are extensive and regulated by law.
There are currently no comparable regulations for storage. Nevertheless, manufacturers of storage boxes regularly carry out appropriate tests.
The right container depends on the type and size of the battery to be shipped or stored.
If you want to learn more about battery storage and transportation, you will find the answers in our blog articles:
https://www.lion-care.com/aktuelles/blog/transportvorschriften-regeln-und-sicherheitsmassnahmen
https://www.lion-care.com/aktuelles/blog/lithium-ionen-akkus-sicherer-umgang-und-richtige-lagerung
The transportation of batteries is subject to ADR regulations.
The number, size and weight, energy density and condition of the batteries are crucial parameters for finding a suitable transport container for lithium-ion batteries. The selection process is complex and should be carried out by appropriately trained personnel. We have a trained hazardous materials officer on our team. Please feel free to contact us.
Plastic containers are cheaper but not as durable as metal containers. They are suitable, for example, for non-critical batteries, defective batteries, prototypes and end-of-life batteries. They can be used for both storage and transportation.
Metal containers are required, for example, when dealing with critically defective batteries.
The exact packaging instructions for these cases can be found in the ADR or by consulting a certified hazardous materials specialist.
To date, there are no legal requirements for the storage of lithium-ion batteries, which does not mean that they should be stored without suitable protective measures.
It is best to check with your insurer to find out which measures they recognize as suitable in the event of a claim.
For example, a suitable box could already be recognized as spatial separation.
A rough overview can be found in this VDS publication from the GDV:
https://shop. vds.de/download/vds-3103/ccb1d439-ad9d-47cb-a2b1-ace23e155610
Please also read our blog article on this topic:
https://www.lion-care.com/aktuelles/blog/lithium-ionen-akkus-sicherer-umgang-und-richtige-lagerung
Accessory
That depends on various factors that need to be considered:
- size of the battery(ies)
- condition (e.g. non-critical, defective, critically defective or prototype)
- power
Transport boxes are available in many different sizes and specifications. The packaging group for which the box is suitable is indicated for each product.
Find out more in our blog article:
https://www.lion-care.com/aktuelles/blog/transportvorschriften-regeln-und-sicherheitsmassnahmen
Even if the batteries are not critical, remember to protect them from shocks and to order appropriate filling material if it is not already included in the box.
Yes. Should a battery reach a critical state and cause a fire, separating the batteries will prevent the fire from spreading and multiplying.
Generally, the insulation and protection material should line all sides of the container. The batteries are stored between individual layers.
We also have containers in our program that already have the protective material integrated into the outer wall. No further protective layer is necessary here.
The technical principles for storage and transportation solutions are very similar. The transport boxes are also subjected to extensive tests in accordance with ADR (drop test, fire test, etc.) to confirm compliance with the ADR regulations. The packaging regulations are extensive and regulated by law.
There are currently no comparable regulations for storage. Nevertheless, manufacturers of storage boxes regularly carry out appropriate tests.
The right container depends on the type and size of the battery to be shipped or stored.
If you want to learn more about battery storage and transportation, you will find the answers in our blog articles:
https://www.lion-care.com/aktuelles/blog/transportvorschriften-regeln-und-sicherheitsmassnahmen
https://www.lion-care.com/aktuelles/blog/lithium-ionen-akkus-sicherer-umgang-und-richtige-lagerung
The transportation of batteries is subject to ADR regulations.
The number, size and weight, energy density and condition of the batteries are crucial parameters for finding a suitable transport container for lithium-ion batteries. The selection process is complex and should be carried out by appropriately trained personnel. We have a trained hazardous materials officer on our team. Please feel free to contact us.
Plastic containers are cheaper but not as durable as metal containers. They are suitable, for example, for non-critical batteries, defective batteries, prototypes and end-of-life batteries. They can be used for both storage and transportation.
Metal containers are required, for example, when dealing with critically defective batteries.
The exact packaging instructions for these cases can be found in the ADR or by consulting a certified hazardous materials specialist.
To date, there are no legal requirements for the storage of lithium-ion batteries, which does not mean that they should be stored without suitable protective measures.
It is best to check with your insurer to find out which measures they recognize as suitable in the event of a claim.
For example, a suitable box could already be recognized as spatial separation.
A rough overview can be found in this VDS publication from the GDV:
https://shop. vds.de/download/vds-3103/ccb1d439-ad9d-47cb-a2b1-ace23e155610
Please also read our blog article on this topic:
https://www.lion-care.com/aktuelles/blog/lithium-ionen-akkus-sicherer-umgang-und-richtige-lagerung