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Cleaner Technology Projects in Denmark 1997

Recycling of Chemicals, Energy and Water in the Textile Industry

Kemikalie-, energi- og vandforbrug i tekstilindustrien
Arbejdsrapport nr. 95, 1997, Miljøstyrelsen

Results that are referred to in collected literature and laboratory and pilot test carried out in this project show that the environmental as well as the economic potentials for membrane filtration in the recycling of chemicals, energy and water in the textile industry’s different process water types is large.

Seven chosen process water types from seven industry-typical processes have been treated with a membrane palette of 31 different membranes in total. The majority of the membranes in the pilot tests have been sorted in spiral-designed elements.

The process water from the pre-treatment of cotton can, aided by ultra-filtration, be separated in a permeate containing recyclable detergent, sodium hydroxide and energy and in addition in a concentrate with a very high COD that potentially can be used as an energy source.

The dye bath from the reactive colouring of cotton can, aided by specially chosen nanofiltration membranes, be separated in a permeate containing sodium chloride that can be re-cycled in the colouring, and in addition in a concentrate with a very high COD- and colour contents, which must be disposed of by for example using its energy contents. It has only been possible to carry out these tests in the laboratory.

Both rinse/wash water from the leaching after a reactive pressure of cotton, and from process water from the colouring of polyester and polyamide, can aided by nanofiltration membranes be separated in a recyclable permeate with energy contents and a concentrate with a high COD- and colour contents, which must be disposed of by for example using its energy contents.

Process water from the stonewash of denim goods can, aided by a two-step treatment with firstly nanofiltration membranes and secondly reversed osmosis membranes, be separated in a recyclable permeate with energy contents and a concentrate with a very high COD- and colour contents, which must be disposed of by for example using its energy contents.

Process water from pigment printing of cotton goods can, aided by tubular ultrafiltration membranes, be separated from the latex contents that make the water type very difficult to handle in traditional membrane filtration plants. In the concentrate from the ultrafiltration latex precipitates in lumps that resemble chewing gum. The permeate is regarded as upgradeable to recyclable water by reversed osmosis. This reversed osmosis step has not been tested.

The process water types are very different in composition and the results from the tests also show very different membrane results, and it can be concluded that it is relatively easier to treat single water types than mixed wastewater consisting of a large number of different water types.

The tests show very different fouling speeds. Some water types only need rinsing with warm water to obtain a total restitution of the membrane, while others need frequent and thorough cleaning procedures to maintain the product flux.

In all of the treated process water types there was, aided by chemical datasheets, identified chemicals, which potentially could cause problems for the membranes. A consequent laboratory screening of the membranes acquitted roughly half, the rest are attempted replaced.

To be able to assess the economic potential of the concept, the actual price level of the traditional product with the purchasing of water and the payments to the waste water discharge in Ringkøbing County (22 DKK/m³) can be compared to the calculated price level of the concept with membrane filtration, recycling of chemicals, energy, water and anaerobe out rotting of concentrates, which amounts to approx. 17 DKK/m³. This result shows therefore that compared to traditional production there for the majority of water types will not be increased costs connected to the implementation of the membrane filtration concept, and that there most probably could be an economical gain.

Author/ institution

Hans Henrik Knudsen and Henrik Wenzel Christensen, Institute of Product Development

Jørgen Wagner, Osmonics Desal, Bodil Mose Pedersen and Per Elberg Jørgensen, VKI Institute of Water Environment, John Hansen, DTI Clothing and Textiles.

This report is subsidised by the National Council for Recycling and Cleaner Technology

ISSN no. 0908-9195
ISBN no. 87-7810-913-2

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