DIGIFIN

DIGItal finishing with High Speed Ink-Jet technology, significantly improving sustainability, flexibility and economic performance of the textile FINishing industry

Coordinatore	TEN CATE PROTECT B.V.    more  Organization address address: Campbellweg 30 city: NIJVERDAL postcode: 360 contact info Titolo: Mr Nome: G.a. Cognome: KOELE Email: send email Telefono: -613110746 Fax: -548633225
Nazionalità Coordinatore	Netherlands [NL]
Totale costo	3˙291˙465 €
EC contributo	1˙020˙000 €
Programma	FP7-ICT Specific Programme "Cooperation": Information and communication technologies
Code Call	CIP-EIP-Eco-Innovation-2011
Funding Scheme	CIP-EIP-EI-PMRP
Anno di inizio	2012
Periodo (anno-mese-giorno)	2012-07-14   -   2015-07-13

 Partecipanti

#	participant	country	role	EC contrib. [€]
1	TEN CATE PROTECT B.V.  Organization address address: Campbellweg 30 city: NIJVERDAL postcode: 360 contact info Titolo: Mr Nome: G.a. Cognome: KOELE Email: send email Telefono: -613110746 Fax: -548633225	NL (NIJVERDAL)	coordinator	0.00
2	REGGIANI MACCHINE S.P.A  Organization address address: via zanica 17/0 city: GRASSOBBIO contact info Titolo: Dr Nome: Antonino Cognome: TRICOMI Email: send email Telefono: -353844500	IT (GRASSOBBIO)	participant	0.00

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 Obiettivo del progetto (Objective)

In most cases for textile treatment an excess of chemicals using water as carrier is being applied in process vessels (foulards and other processing techniques), with mass transport being the fundamental principle for carrying the chemical to the substrate/fibre. More than 90% of the organic chemicals and auxiliaries in dyeing operations does not stay on the fibre. A very significant part of the organic raw material load entering the textile process ends up in the waste water.

In the last decade, digital printing is entering the textile process market. Speeds are limited to maximal 5 m/min due to required intermitting operation being used in most existing digital textile printers. With traditional textile finishing process speeds of 40 35 m/min, these machines are obviously not a suitable replacement of traditional process lines. The continues printing process developed by TCP and validated together with REG enables high speed digital processing of textile substrates.

The main purpose of this project is the first demonstration/application and market uptake of the Digital Textile Finishing concept as a major eco-innovation for the textile industry, using two digitalized products as carriers for this innovation. TCP and REG will show the technical reliability of the technology/concept (as negative perception is a major hurdle for a broad market entry), as well as the innovative potential (making way for eco-innovation) and the strong environmental benefits, together making this a very cost effective solution.

The implementation of a digital finishing concept at the first time on an industrial scale, replacing a (major) part of the traditional dying, printing, coating and finishing operations as is, and leading to a significant reduction of environmental impact and at the same time an improved economical performance due to new product potential, increased production flexibility, shorter runtimes and significantly less consumption chemicals, water and energy.