Q3332957 (Q3332957): Difference between revisions
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(Changed label, description and/or aliases in en: Setting new description) |
(Created claim: summary (P836): The aim of the project is to develop a fully automated clean-in-place process for the resource-efficient internal cleaning of containers based on highly active cleaning foams. For this purpose, procedural alternatives for reproducible foam application as well as concepts for application-oriented foam types are developed and optimised by computer-aided simulations. With up to 40 % shorter cleaning times and drastically reduced media consumption f...) |
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The aim of the project is to develop a fully automated clean-in-place process for the resource-efficient internal cleaning of containers based on highly active cleaning foams. For this purpose, procedural alternatives for reproducible foam application as well as concepts for application-oriented foam types are developed and optimised by computer-aided simulations. With up to 40 % shorter cleaning times and drastically reduced media consumption for cleaning chemistry (30 %) and water (50 %) and reduced energy consumption (up to 60 %), the process balance is to be significantly improved. (English) | |||||||||||||||
| Property / summary: The aim of the project is to develop a fully automated clean-in-place process for the resource-efficient internal cleaning of containers based on highly active cleaning foams. For this purpose, procedural alternatives for reproducible foam application as well as concepts for application-oriented foam types are developed and optimised by computer-aided simulations. With up to 40 % shorter cleaning times and drastically reduced media consumption for cleaning chemistry (30 %) and water (50 %) and reduced energy consumption (up to 60 %), the process balance is to be significantly improved. (English) / rank | |||||||||||||||
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| Property / summary: The aim of the project is to develop a fully automated clean-in-place process for the resource-efficient internal cleaning of containers based on highly active cleaning foams. For this purpose, procedural alternatives for reproducible foam application as well as concepts for application-oriented foam types are developed and optimised by computer-aided simulations. With up to 40 % shorter cleaning times and drastically reduced media consumption for cleaning chemistry (30 %) and water (50 %) and reduced energy consumption (up to 60 %), the process balance is to be significantly improved. (English) / qualifier | |||||||||||||||
point in time: 25 October 2021
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Revision as of 07:55, 25 October 2021
Project Q3332957 in Germany
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q3332957 in Germany |
Statements
625,677.51 Euro
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Jürgen Löhrke GmbH
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23569 Lübeck
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Ziel des Vorhabens ist die Entwicklung eines vollautomatisierten Clean-in-Place-Verfahrens für die ressourceneffiziente Innenreinigung von Behältern auf Basis hochaktiver Reinigungsschäume. Dazu werden verfahrenstechnische Alternativen für einen reproduzierbaren Schaumauftrag sowie Konzepte für anwendungsgemäße Schaumtypen ausgearbeitet und durch rechnergestützte Simulationen optimiert. Mit um bis zu 40 % verkürzten Reinigungszeiten und drastisch reduzierten Medienverbräuche für Reinigungschemie (30%) und Wasser (50%) und einem verminderten Energieeinsatz (bis zu 60 %) soll die Prozessbilanz deutlich verbessert werden. (German)
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The aim of the project is to develop a fully automated clean-in-place process for the resource-efficient internal cleaning of containers based on highly active cleaning foams. For this purpose, procedural alternatives for reproducible foam application as well as concepts for application-oriented foam types are developed and optimised by computer-aided simulations. With up to 40 % shorter cleaning times and drastically reduced media consumption for cleaning chemistry (30 %) and water (50 %) and reduced energy consumption (up to 60 %), the process balance is to be significantly improved. (English)
25 October 2021
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Identifiers
DE_TEMPORARY_35602
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