METHOD FOR RECYLCING SATURATED ACTIVE ADSORBENT OF A FILTER MODULE

Abstract

A method of recycling an saturated adsorbent (3) of a filter module (1) of an industrial process plant (15), wherein a first process (17) includes removing the saturated adsorbent (3) from the filter module (1), a fourth process (20) includes washing and reactivating the saturated adsorbent, a fifth process (21) includes drying and packing the reactivated adsorbent in airtight containers, and a seventh process (23) includes replacing the saturated adsorbent by reactivated adsorbent in the filter module (1).

Claims

1. Method of recycling saturated active adsorbent (3) of a filter module (1) of an industrial process plant (15), characterized by a first process (17) comprising removing the saturated adsorbent (3) from the filter module (1), a forth process (20) comprising washing and reactivating the saturated adsorbent, a fifth process (21) comprising drying and packing the reactivated adsorbent in airtight containers, and a seventh process (23) comprising replacing the waste adsorbent by reactivated adsorbent in the filter module (1).

2. Method according to claim 1, wherein the method further comprises a second process (18) comprising packing the waste saturated adsorbent in a container, a third process (19) comprising transporting the saturated adsorbent to a reactivation facility (16), and a sixth process (22) comprising transporting the reactivated adsorbent back to the industrial process plant (15).

3. Method according to claim 1, wherein the active adsorbent is contained in heat resistant permeable bags (2).

4. System of recycling a saturated adsorbent (3) of a filter module (1) in an industrial process plant (15), the saturated adsorbent being contained in gas permeable heat resistant bags (2), characterized in that the system comprises means (17) for packing the saturated adsorbent containing bags (2), transport means (19) for sending the package to a reactivation facility (16), means (20) for reactivating the saturated adsorbent while still in their bags, means (21) for drying and packing the reactivated adsorbent bags, and transport means (22) for sending the bags back to the process plant (15).

5. System according to claim 4, wherein the system further comprises means (18) for packing the saturated adsorbent, and means (23) for replacing the saturated adsorbent by reactivated adsorbent.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] Other features and advantages of the present invention will become more apparent to a person skilled in the art from the following detailed description in conjunction with the appended drawings in which:

[0025] FIG. 1 is a section view of a vertically aligned process gas filter according the invention, and

[0026] FIG. 2 is a flow chart of a method of recycling saturated active adsorbent in a closed circle according to the invention.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0027] A filter module 1 according to FIG. 1 is arranged to clean a horizontal gas flow 6. The module comprises a plurality of bags 2 containing an active adsorbent 3. The bags are closely arranged side by side between the walls 7 of the filter module 1 on a diffuser 4 such that the gas flow must pass the active adsorbent containing bags. The diffuser comprises a bag carrying sheet with a plurality of passageways for the gas flow. The function of the diffuser is to evenly distribute the gas flow in order to provide a smooth pressure profile and thus a uniform gas flow. The diffuser is placed on brackets 8 on the walls 7 of the filter module.

[0028] In the embodiment shown in FIG. 1 there are two layers of active adsorbent bags. Between the two layers of bags there is formed a cavity 5. This cavity helps the gas flow to a uniform passage of the filter module. The gas having passed the first active adsorbent layer will be spread out and building up an even pressure profile towards the next active adsorbent layer. The probability of each gas molecule to reach an active adsorbent particle is thus increased. By the contact with an active adsorbent particle the odour carried by the gas will be adsorbed by the active adsorbent.

[0029] In a recycling process according to FIG. 2 the saturated active adsorbent 3 is sent from an Industrial process plant 15 to a reactivation facility 16. In the embodiment shown the active adsorbent is contained in permeable bags 2. The method comprises a plurality of part processes. All part processes are connected by arrows to show the full circle of the recycling process. In a first process 17 the bags containing saturated active adsorbent are removed from a filter module. In a second process 18 the bags are being packed in a container for transport. In a third process 19 the bag containing container is transported to a reactivation facility 16. In a forth process 20 the saturated active adsorbent is washed and reactivated while still remaining in the bags. In a fifth process 21 the bags are being dried and packed in airtight containers. In a sixth process 22 the airtight containers with the bags are sent back to the Industrial process industry 15. In a seventh process 23 the saturated active adsorbent bags are replaced by reactivated active adsorbent bags in the filter module 1.

[0030] Over time a small amount of active adsorbent will be permanently saturated. Thus such permanently saturated adsorbent will not respond to reactivation. When the degree of reusable active adsorbent has fallen beyond an acceptable level the wasted adsorbent bags are sent for combustion 25. As replacement new bags 24 containing fresh activated adsorbent will be introduced into the recycling process.

[0031] Although favorable the scope of the invention must not be limited by the embodiments presented but contain also embodiments obvious to a person skilled in the art. For instance any suitable adsorbent may be used. Also any process for reactivating the saturated active adsorbent may be used.