Current positions on topics of chemical technology, biotechnology, education and interdisciplinary issues
Geobiotechnology does not only contribute to the remeditation of soil and mining waters. It offers also significant potential for the exploitation of resources from primary deposits as well as tailings and heaps and for recycling. The status paper by the Temporary Working Group Geobiotechnology gives an overview on the current status of research and technology and discusses perspectives for the further development. Relevant stakeholders in Germany and educational courses are also listed.
The report "Low carbon energy and feedstock for the European chemical industry", prepared by the German Society for Chemical Engineering and Biotechnology (DECHEMA) and released by the European Chemical Industry Council (Cefic) looks into technology options and pathway scenarios to ensure low-carbon, yet competitive European chemical industry by 2050. The study focuses on the main chemical building blocks used in upstream large volume production processes (ammonia, methanol, ethylene, propylene, chlorine and the aromatics benzene, toluene and xylene), which represent about 2/3 of all GHG emissions of the chemical sector.Download als PDF-File (9192 kB)
In order to meet the growing demand for and exploit the potential of phytoextracts for food, pharmaceutical or agrochemical applications, a coordinated research approach with adequate public funding is mandatory. In its current position paper “Phytoextracts – Proposal towards a new and comprehensive research focus”, the ProcessNet sub-division “Phytoextracts – Products and processes” outlines the state of research and technology and gives recommendations for research targets and approachesDownload als PDF-File (4346 kB)
Raw Water – Process – Waste Water
Global changes in water availability and the manifold regulatory frameworks have already prompted many companies to develop ambitious strategies to improve their water usage efficiency. This requires a combination of know-how and process technology, embedded in integrated industrial water management solutions.
Due to the high innovation potential of an integrated industrial water management the ProcessNet Subject Division Production-Integrated Water/Waste Water Technology has developed a position paper to highlight the trends and perspectives in industrial water technology.
With this 2nd edition of the Roadmap the ProcessNet subject division Chemical Reaction Engineering addresses the general trend that Chemical Reaction Engineering is directly defining product quality and product properties and, thus, is getting directly involved in the development of innovative application characteristics of products. To an increasing extent Chemical Reaction Engineering is also a key for the process and product development of industrial sectors outside the chemical industry such as energy technology or automotive engineering. Chemical Reaction Engineering is not anymore only devoted to understand, design and optimize chemical reactors in terms of yield, energy and efficiency. In addition, it is a key enabler for product innovations and new business concepts through e.g. product by process approaches or modular plant concepts.
All the aspects mentioned before are considered now in the 2nd edition of the roadmap including case studies, technical chapters and an outlook updated accordingly.
The present White Paper „Modular Plants“ was developed in the temporary ProcessNet working group „Modular Systems“ in a close cooperation between industry and research institutions. It provides the current state of the joint efforts to improve the modularisation of plant technology in the chemical industry. The paper calls for a standardization of the nomenclature for modular production concepts to provide the basis for a wide industrial application of the technology. It points out obstacles but also possible development paths of modularisation and weighs its strengths against risks. Furthermore, research needs and funding actions are identified that are necessary for the further implementation of modular system concepts. A translation of the text into German is planned and publication should be done at the same place.Download als PDF-File (1062 kB)
Research in the field of adhesives is a key factor in the development of innovative products in many industries. However, there is still a need for extensive research in order to enable the use of adhesives in production processes to be managed more effectively and to enable the service life of bonded joints to be predicted more reliably. The roadmap outlines current and future areas of research in adhesive technology and provides orientation for application-oriented R&D.Download als PDF-File (817 kB)
These recommendations of Working Group Upstream Processing of the DECHEMA expert group “Single-use technology in biopharmaceutical manufacturing” aim to select suitable experimental methods for the characterisation of single-use bioreactors (SUB) and mixers (SUM). The described methods are applicable to a broad range of of single-use systems and applications. The guidelines can also be used for the engineering characterisation of reusable systems. Furthermore, these process engineering characterisation methods intend to offer manufacturers and operators of SUB and SUM a uniform set of methods and instruments through validated Standard Operating Procedures (SOPs).Download als PDF-File (1488 kB)
What is the role of Zero Liquid Discharge (ZLD) in industrial water management? This question is answered by the ProcessNet Expert Group “Production-Integrated Water/Waste Water Technology”, in cooperation with the DGMT-DME “Committee Water Future” (AWZ) in their discussion paper. Experts warn about excessive expectations in ZLD related to economical and ecological perspectives. Pros and cons are listed in the discussion paper and decision paths are outlined for industrial application.Download als PDF-File (434 kB)
New production systems and innovative manufacturing methods such as single-use technologies bring about new challenges for quality control of biopharmaceutical production processes. In its most recent publication, the DECHEMA Working Group “Single-use technology in biopharmaceutical manufacturing” gives recommendations for a risk analysis of these processes. Based on prior publications, the compact paper lists the regulatory background as well as potential risks related to material, processes, or products. An example of an industrial application shows how risk values can be defined and risk levels calculated in order to determine appropriate countermeasures. This recommendation is based on an article in Adv. Biochem. Eng. Biotechnol. The original publication is available at www.springerlink.com.Download als PDF-File (229 kB)
Energy storage systems for the energy transition: Position Paper of the Joint Working group on Chemical Energy Research. Fundamental research for new storage technologies, a data base for the economic evaluation and an integrated system including electricity, heat and mobility are required in order to implement the energy transition successfully. A comprehensive article supplementing the position paper has been published in Chemie Ingenieur Technik (access via http://onlinelibrary.wiley.com/doi/10.1002/cite.201400183/pdf).Download als PDF-File (289 kB)
Today, single-use technology is used routinely in biopharmaceutical development and manufacturing processes. Besides many advantages, the available single-use systems still have limitations. One of the most cited disadvantages is the risk for release of potentially toxic or inhibitory substances, so-called leachables from the plastic bags. The bags are typically made of multi-layer thermoplastic films. Until now, no standardized cell culture test was available to identify critical bag films at an early stage in process development. To meet this need, a sub-team of the DECHEMA temporary working group "Single-Use Technology in Biopharmaceutical Manufacturing" developed a standardized cell culture test that would enable the early identification of non-satisfactory films for cultivation of CHO cell lines in chemically defined culture media.Download als PDF-File (410 kB)
The Technology Roadmap "Energy and GHG Reductions in the Chemical Industry via Catalytic Processes" explores how the chemicals sector can harness catalysis and other related technology advances to improve on energy efficiency in its production processes. Furthermore, it evaluates how continuous improvements and breakthrough technology options can affect energy use and reduce greenhouse gas emission rates in the chemical sector. Measures from policy makers, investors, academia and the sector to facilitate developments in catalytic technology and implement its potential around the globe are also described. The roadmap has been jointly developed by the International Energy Agency (IEA), the International Council of Chemical Associations (ICCA) and DECHEMA to demonstrate the role catalytic processes can play to improve the chemicals sector's energy and GHG emissions intensity.Download als PDF-File (2458 kB)
Supplement to the Roadmap for Catalysis Research in Germany published by the German Catalysis SocietyDownload als PDF-File (1629 kB)
Mineral, renewable and secondary raw material processing - current engineering challenges Policy document issued by the ProcessNet Subject Divisions: »»Comminution / Classification »»Interfacially Dominated Systems and Processes »»Mechanical Liquid SeparationDownload als PDF-File (1608 kB)
(March 2012)Download als PDF-File (1165 kB)
Status paper issued by the DECHEMA/VCI Working Group "Responsible Production and Use of Nanomaterials"Download als PDF-File (843 kB)
(January 2010)Download als PDF-File (637 kB)
Renowned experts from academia and industry were invited to contribute to an expert paper which outlines the perspectives of a KBBE within the next 20 years. The resulting so-called 'Cologne Paper' was published on 30 May 2007 in Cologne on behalf of the German Presidency of the Council of the European Union.Download als PDF-File (255 kB)
– the contribution of chemistry –Download als PDF-File (387 kB)
2. Auflage aus dem Jahre 2002 , Fachgemeinschaft Bildung und Innovation