EP2303717A1

EP2303717A1 - Transport container for metal alcoholates and method for transporting metal alcoholates

Info

Publication number: EP2303717A1
Application number: EP09769350A
Authority: EP
Inventors: Mathias Viandt; Claus Bauer
Original assignee: Evonik Degussa GmbH
Current assignee: Evonik Operations GmbH
Priority date: 2008-06-28
Filing date: 2009-06-26
Publication date: 2011-04-06
Also published as: JP2011526231A; BRPI0915285A2; CN102076574A; WO2009156502A1; RU2011103009A; US20110099951A1; KR20110036091A

Abstract

A transport container for metal alcoholates, comprising a rigid outer container (11), which consists primarily of renewable raw materials, and a flexible bulk material container (10), which is inside the outer container, wherein the flexible bulk material container has at least one inner diffusion-impermeable layer and an outer flexible fabric layer.

Description

TRANSPORT CONTAINERS FOR METAL ALCOHOLATES AND METHOD FOR THE TRANSPORT OF

metal alcoholates

The invention relates to a transport container for metal alcoholates.

Metal alcoholates, especially magnesium alcoholates, are known chemical compounds used to prepare catalysts used, for example, in polyolefin production.

Storage and transport of the metal alcoholates, however, requires some safety precautions. For example, magnesium ethanolate is highly flammable, irritating and violently reacts with water. There is a risk of spontaneous combustion under air. This also applies accordingly to other metal alcoholates.

Since metal alcoholates are sensitive to air and moisture, special protective measures must be taken during transport.

It is known to pack magnesium alcoholate to exclude air or moisture in succession in two bags and then in a steel drum. This type of packaging is a disposable packaging.

In this way, containers in the order of 50 kg can be packed and transported. This known type of packaging has the disadvantage that only a relatively small amount can be packed and transported in a container. A larger amount of bulk material must be packed accordingly in a great many of these containers and can not be transported in this way meaningful.

When using the magnesium alcoholate for the preparation of a catalyst amounts of up to 1000 kg per batch are used, so the use of larger packaging units makes sense. It is also known to use stainless steel silo containers, which can be filled with up to 500 kg content, as transport containers for metal alcoholates. These stainless steel silo containers are filled directly with metal alcoholate. The metal alcoholate is not placed in a bag and then in the stainless steel silo container. These containers, also referred to as IBCs (Intermediate Battery Containers), are reusable containers, with the associated disadvantages. The containers must be transported back to the metal alcoholate production site. This often results in problems with damage to the steel outer container and safety problems, since the container must be cleaned before reuse. Due to the above-described properties of remaining in the container residual amounts of metal alkoxide, special safety measures are to be taken here. Not only in this regard, the cleaning of the container must be done with great care, but also because the container before the reuse of contaminants and

Moisture must be released. Steel containers as such have a large intrinsic volume, which makes both the transport of the metal alcoholates to the consumer and the return transport very expensive.

It was therefore the task of developing a method and a device with which these disadvantages can be avoided.

This object is achieved by a transport container for metal alcoholates, comprising a rigid outer container which consists predominantly of renewable raw materials and a present in the outer container flexible bulk material container, wherein the flexible bulk material container at least one inner diffusion-tight layer with a water vapor diffusion rate WDD less than 0.3 g / ( m2 * d), measured at 38 ° C and 90% relative humidity, according to DIN 53122 and an oxygen and carbon dioxide diffusion rate of q _A less than 0.3 cm 3 / (m 2 * d * bar), measured at 23 ° C and 75% relative humidity, according to DIN53380 and an outer flexible fabric layer having a maximum tensile force chain of at least 185 daV / 5 cm and a maximum tensile force of at least 150 daV / 5 cm, determined according to DIN EN-ISO 13934-1 of floor and sidewalls.

Preferably, the water vapor diffusion rate of the inner layer WDD is less than 0.1 g / (m 2 * d) measured at 38 ° C and 90% relative humidity according to DIN 53122 and the oxygen and carbon dioxide diffusion rate q _A is less than 0.1 cm 3 / (m 2 * d * bar), measured at 23 ° C and 75% relative humidity, according to DIN53380

Under a rigid outer container is a dimensionally stable container made of a material such as e.g. To understand cardboard or wood, which preferably has a strength, characterized by the puncture work according to DIN 53142, of at least 18 J, measured at 23 ° C and 50% relative humidity.

A flexible bulk material container is understood to mean a container whose container shape is variable, wherein the container shape is formed only by the filling material filled into the container.

The rigid outer container may consist of several individual parts, which are held together by metal clips, plastic adhesive sheets or similar fasteners. However, the major part, ie at least 50 wt .-%, preferably at least 70 wt .-%, particularly preferably at least 90 wt .-% of the rigid outer container consists of materials based on renewable raw materials. The flexible bulk material container is inserted in the rigid outer container and is enclosed by this. The inner layer and the outer layer of the flexible bulk material container can be wholly or partially connected to each other or be present separately. The inner layer can consist of all film materials known to the person skilled in the art, as long as the required diffusion rates for water vapor, oxygen and carbon dioxide are maintained. The inner layer is preferably a composite film, for example an aluminum composite liner consisting of polyethylene (PE), aluminum and polyethylene terephthalate (PET). The outer layer of the flexible bulk material container is preferably made of a fabric, particularly preferably of a polypropylene fabric.

Such flexible bulk containers are also referred to as FIBC (flexible intermediate bulk containers).

The flexible bulk material container can have a transport weight of up to 300 kg, preferably up to 400 kg, particularly preferably up to 500 kg. To ensure economical transport, the transport weight should be at least 200 kg.

The transport container according to the invention thus has the same transport capacity as a stainless steel silo container, without, however, having its disadvantages, such as heavy weight, high price or the need for an expensive return transport to the production site.

The flexible bulk material container can be earthed to prevent a dust explosion that can be triggered by static electricity and to allow filling and draining in explosion-proof areas.

The inventively usable flexible bulk material container may have a filler neck and an outlet. Preferably, at least the inner layer of the flexible bulk goods container weldable, so that after filling and an overlay with inert gas permanently a product contamination with the atmosphere can be excluded.

As shown in FIG. 1, the flexible bulk goods container can be transported on four carrying straps 3, 4, 5 and 6.

A typical flexible bulk material container which can be used according to the invention is shown schematically in FIG.

The transport containers according to the present invention are intended to be used as disposable packaging, which can be disposed of after emptying. A return transport to the producer can therefore be omitted.

Already in this respect, the transport container according to the present invention, the reusable containers made of stainless steel are clearly superior. However, the transport containers according to the present invention also increase the transport efficiency compared to the reusable containers with steel containers by their significantly lower weight. Thus, a steel returnable container having a transport capacity of 500 kg weighs about 260 kg, whereas the transport container according to the present invention, consisting of flexible bulk goods container, rigid outer container and pallet, with a transport capacity of 500 kg only a weight of about 40 kg on average having. One-way containers according to the prior art, which have a transport capacity of 50 kg per container, have a dead weight of about 125 kg with a palletized total transport quantity of 500 kg. This corresponds to about three times the weight of the transport container according to the invention with the same amount transported. In the case of steel returnable containers, the proportion of the total weight of the packaging weight is approx. 35%. In the disposable containers according to the prior art, the proportion of the total weight of the packaging weight is about 20%. In the case of the transport container according to the invention, the proportion of the packaging weight in the total weight of transport containers filled with metal alcoholate is less than 15% and is thus significantly lower than in the containers of the prior art. Preferably, the weight of the transport container according to the invention is less than 10% of the total weight of transport containers filled with metal alcoholate.

Due to the high intrinsic volume of the known stainless steel returnable containers and the disposable containers, only about 5 t of metal alcoholate can be transported in steel returnable containers in a standard transport container, whereas the same standard transport container can be loaded with about 10 t of metal alcoholate in the transport containers according to the invention.

The existing of predominantly renewable raw materials rigid outer container is preferably predominantly of wood, more preferably predominantly of cardboard. The cardboard can consist of corrugated cardboard and have a size matched to the flexible bulk material container. In this case, the carton should be such that at least two transport containers according to the invention can be stacked on top of each other.

The dimensions of the rigid outer container are preferably such that up to 20 transport containers each stacked on pallets can be accommodated in a known ship or rail container.

For example, the rigid outer container may have the following dimensions: Internal dimensions in millimeters

L = length 1100 B = width 1100 H = height 880 Thickness of the walls 14 mm

External dimensions in millimeters

L = length 1128 (1100 + 14 + 14) B = width 1128 (1100 + 14 + 14) H = height 936 (880 + 14 + 14 + 14 + 14)

A typical rigid outer container made of cardboard, as it can be used according to the invention, is shown schematically in FIG.

The transport container according to the invention preferably fulfills the criteria for a combination IBC type 11HZ2 within the meaning of the European Convention for the International Carriage of Dangerous Goods by Road (ADR) and the International Maritime Dangerous Goods Code (IMDG Code). Particularly preferably, the transport container according to the invention has an approval for the transport of alkaline earth metal alkoxides and self-heating organic solids according to the Hazardous Goods Ordinance Road, Rail and Inland Navigation - GGVSEB and the Regulation on the transport of dangerous goods by seagoing vessels (Hazardous Goods Ordinance - GGVSee). According to Chapter 3.2, List of Dangerous Goods, the ADR and the IMDG Code, e.g. for UN 3205 (ERDALKALIMETAL ALCOHOLATE, N.A.G.) and UN 3088 (SELF-HEATABLE ORGANIC SOLID FABRIC, N.A.G.), Packing Group II, respectively, the packaging instruction IBC 06, which allows the use of a combination IBC type 11HZ2 as a bulk packaging.

Preferably, the transport container according to the invention is characterized in that the flexible Bulk container from the transport container can be removed. A removable flexible bulk material container facilitates the handling of the cargo. During transport, a rigid outer container ensures good dimensional stability and stackability. By removing the flexible bulk goods container on site, handling and emptying are simplified.

Since the transport container according to the invention is intended especially for the transport of metal alcoholates, the invention also encompasses a transport container according to the invention filled with a metal alcoholate.

The metal alcoholate is preferably selected from the group of magnesium ethanolate, magnesium methanolate,

Magnesium isopropoxide, or mixed compounds thereof; Furthermore, the metal alkoxide can be selected from the group of sodium methoxide, calcium ethoxide, calcium methoxide, carbonated magnesium alkoxide or mixtures thereof.

As magnesium alkoxide, powders or granules consisting of magnesium alkoxides of the general formula Mg (ORi) x (OR ₂ ) y with the proviso 0 <= x <= 2, 0 <= y <= 2 and x + y = 2, where both Salts of the type (ORi) not equal to (OR ₂ ) and salts of the type (ORi) = (OR ₂ ) and mixtures of these salts can be used within the bed.

The alkoxides may also be present in carbonated, solid form of the general formula Mg (ORi) x (OR ₂ ) y (CO ₂ ) z.

The powders or granules may also consist of mixtures of one or more of the above-mentioned materials with other materials (up to 50% by weight) (e.g., silica, titania, Mg hydroxides, Mg carbonates).

In a particularly preferred embodiment of the invention, the transport container is filled with magnesium ethanolate. The invention likewise encompasses a method for transporting metal alcoholates, comprising the steps of providing a transport container filling the container with metal alcoholate closing the container and subsequent transport, characterized in that the transport container comprises the following components:

a rigid outer container which consists predominantly of renewable raw materials - a flexible present in the outer container

Bulk container, wherein the flexible bulk material container at least one inner diffusion-tight layer with a water vapor diffusion rate WDD less than 0.3 g / (m2 * d), preferably less than 0.1 g / (m2 * d), measured at 38 ° C and 90% relative humidity according to DIN53122 and an oxygen and carbon dioxide diffusion rate of each q _a less than 0.3 cm3 / (m2 * d * bar), preferably less than 0.1 cm3 / (m2 * d * bar) measured at 23 ° C and 75% relative Humidity, according to DIN53380 and an outer flexible layer with a maximum tensile strength of at least 185 daV / 5 cm and a maximum tensile force of at least 150 daV / 5 cm measured according to DIN EN-ISO 13934-1, of the floor and side walls.

The flexible bulk material container for the transport of metal alcoholates, in particular of magnesium alcoholate, is preferably superimposed with nitrogen.

Flushing with nitrogen excludes oxygen within the flexible bulk container. In this way, the auto-ignition, which occurs volume-dependent at about 20 to 70 ° C, even over a longer transport period can be safely avoided.

The inventive method also includes the preferred embodiments of the transport container according to the invention and the above-mentioned metal alcoholates The figures show the various preferred embodiments of the invention:

According to FIG. 1, the flexible bulk material container which can be used according to the invention has a filler neck 1, an outlet neck 2 and the carrying straps 3, 4, 5 and 6.

According to FIG. 2, a carton is arranged on a pallet 12 as a rigid outer container 11, in which the flexible bulk goods container is inserted. The lid flaps IIa, IIb, 11c and Hd are still open.

According to FIG. 3, a closed, ready-to-transport transport container 9, consisting of the FIBC 10 and the carton 11, is arranged on a pallet 12. It is attached to the pallet by means of the change.

As bands, for example CORDSTRAP ^® -Polyester- strapping can be used.

Claims

claims

1. Transport container for metal alcoholates, comprising a rigid outer container, which consists predominantly of renewable raw materials and a present in the outer container flexible bulk material container, wherein the flexible bulk material container at least one inner diffusion-tight layer with a water vapor diffusion rate WDD less than 0.3 g / (m2 * d) measured at 38 ° C and 90% relative humidity, according to

DIN53122 and an oxygen and carbon dioxide diffusion rate of each q _A less than 0.3 cm3 / (m2 * d * bar) measured at 23 ° C and 75% relative humidity, according to DIN53380 and an outer flexible fabric layer with a maximum tensile strength chain of at least 185 daV / 5 cm and a maximum tensile force-shot of at least 150 daV / 5 cm measured according to DIN EN-ISO 13934-1 of floor and side walls.

2. Transport container according to claim 1, characterized in that the transport container, the criteria for a combination IBC type 11HZ2 within the meaning of the European Convention on the International Carriage of Dangerous Goods by Road (ADR) and the International Maritime Dangerous Goods Code (IMDG Code) Fulfills .

3. Transport container according to claim 1 or 2, characterized in that the rigid outer container consists mainly of cardboard.

4. Transport container according to one or more of

Claims 1 to 3, characterized in that the flexible bulk material container is removable from the transport container.

5. Transport container according to one or more of

Claims 1 to 4, filled with a metal alcoholate

6. Transport container according to claim 5, characterized in that the metal alkoxide is selected from the group of magnesium, magnesium, magnesium isopropoxide, or mixed compounds thereof; Sodium methoxide, calcium ethanolate, calcium methoxide, carbonated magnesium alcoholate or mixtures thereof.

7. Transport container according to claim 5 or 6, characterized in that the weight of the transport container is less than 15% of the total weight of transport containers filled with metal alcoholate.

8. A method of transporting metal alcoholates comprising the steps

Provision of a transport container, filling of the container with metal alcoholate, closing of the container and subsequent transport, characterized in that the transport container comprises the following components: a rigid outer container, which consists predominantly of renewable raw materials, a flexible bulk container present in the outer container, the flexible bulk material container having at least one inner diffusion-tight layer with a water vapor diffusion rate WDD of less than 0.3 g / (m 2 * d), measured at 38 ° C and 90% relative humidity, according to DIN 53122 and an oxygen and carbon dioxide diffusion rate of q _A less than 0.3 cm 3 / (m 2 * d * bar), measured at 23 ° C and 75% relative humidity, according to DIN53380 and an outer flexible fabric layer having a maximum tensile force chain of at least 185 daV / 5 cm and a maximum tensile yield of at least 150 daV / 5 cm measured according to DIN EN-ISO 13934-1, of floor and sidewalls.