From the understanding of chemical reactions on the molecular level to the knowledge of materials, from product design to the contribution of chemistry to sustainability and innovation
Modular plant concepts are globally on the rise in order to shorten development and product cycles in the chemical and pharmaceutical industry. The White Paper Modular Plants gives an overview on current developments based on project evaluations.
DoWNLOAD Programme Big Data analytics has become important to the process industry and reveals new market opportunities as well as it could lead to...
In 2017 the Alwin Mittasch Prize goes to two scientists. This prestigious award will be shared equally by Professor David Cole-Hamilton, University of St. Andrews/UK, and its industrial application, and Professor Xinhe Bao, Dalian Institute of Chemical Physics, China.
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.
VOLATILE is a large scale project in the frame of Horizon 2020 involving 21 industry and research partners from nine European countries.
The project’s intention is to develop a Volatile Fatty Acids Platform (VFAP) for the economic utilization of municipal as well as industrial biowaste. Fatty acids will continuously be recovered from anaerobic digestion processes applying membrane technology and will be provided for value added fermentation approaches:
The evolvement of the new value-added chains will be supported by findings of executed case studies and market analyses. Furthermore, the processes will be optimized applying agent-based modeling. To ensure environmentally friendly and economical reasonable process design, VOLATILE additionally will be accompanied by a life cycle assessment (LCA) and an economic feasibility study. Business cases will be developed and a CEN workshop will support standardization on “Sustainable use of municipal solid and sludgy biowaste for added value biomolecules for industrial application”.
Download Programme Enzymes are considered to be little miracle substances for innovation, process advantages and cost reductions. Whether in the food...
The Willi Keim Prize is being awarded to Dr. Ulrich Hintermair, University of Bath / United Kingdom, for his original and creative contributions to the design of catalytic systems based on molecular complexes in alternative fluids and solid matrices. The biennial Willi Keim Prize is awarded to younger scientists for fundamental and original research work in the field of advanced fluids, and comes with a prize money of 2,000 Euros.
Invitation Since its foundation in the year 2002, the "Green Solvents" biennial conference series has been established as a unique platform for the...
Have you ever wished for smart alternatives to slow experimental progress? Did you find yourself getting tired of repeating experiments many times, one...
Das Kopernikus-Projekt P2X: Erforschung, Validierung und Implementierung von Power-to-X-Konzepten ist eines von vier vom BMBF geförderten Kopernikus-Projekten zur Energiewende. In den nächsten zehn Jahren sollen Technologien erforscht und entwickelt werden, die zur effizienten Speicherung und Nutzung von elektrischer Energie aus erneuerbaren Energiequellen durch Umwandlung in stoffliche Energieträger und chemische Produkte mit hoher Wertschöpfung dienen können. Durch die Verwendung von CO2 aus Abgasen kann zudem der Einsatz von fossilen Brennstoffen reduziert werden. P2X leistet somit einen wichtigen Beitrag zur Dekarbonisierung und zum Umbau der Energiesysteme als Teil der Energiewende.