Institute of Chemical Process Fundamentals, Academy of Sciences of the Czech Republic, v.v.i. (Czech: Ústav chemických procesů Akademie věd České republiky) is one of the six institutes belonging to the CAS chemical sciences section and is a research centre in a variety of fields such as chemistry, biochemistry, catalysis and environment.
Its research topics include multiphase reaction systems for the design of chemical synthesischemical processes and new materials development, energetics and protection of environment. Its national and international reputation is ascertained by its participation in EU financed research projects, such as EUCAARI or MULTIPRO. The MATINOES[permanent dead link] project was evaluated to belong to 20 best projects of the 6th Frame Programme.
History
The institute was founded at the Czechoslovak Academy of Sciences in 1960 and, from its beginning, was intended to be a multidisciplinary research institution.
Its founder and first director, Professor Vladimír Bažant, was a chemical technologist with a broad perspective who valued modern concepts without which development of new processes would not be possible. This led him to invite Professor George L. Standart, a chemical engineer and a US native, who paved the way for the development of chemical engineering in the former Czechoslovakia in the 1950s and 60s. Chemical engineering research could not be done without a solid base in physical chemistry. This field of research was brought into the institute by the arrival in 1964 of Professor Eduard Hála and his team of physical chemists to the newly built site in the Prague suburban area of Suchdol-Lysolaje.
In 1989 several restructurings had been carried out that lead to a gradual decrease of staff by 50%. The research was rationalized into today's institute's structure.
laser-induced chemical reactions and aerosol processes for preparation of new compounds and composites
Organization structure
Management
Director: Ing. Michal Šyc, Ph.D.
Chairman of Institute Board: Dr. Ing. Vladimír Ždímal
Scientific Secretary: Ing. Vladimír Církva, Dr.
Research departments
Department of Membrane Separation Processes - Head: Ing. Pavel Izák, Ph.D., DSc.
Department of Aerosols Chemistry and Physics - Head: Dr. Ing. Vladimír Ždímal
Department of Catalysis and Reaction Engineering - Head: Ing. Olga Šolcová, CSc.
Department of Multiphase Reactors - Head: Doc. Ing. Marek Růžička, CSc.
Department of Analytical Chemistry - Head: Ing. Jan Sýkora, Ph.D.
Department of Environmental Engineering - Head: Ing. Michal Šyc, Ph.D.
Department of Molecular and Mesoscopic Modelling - Head: prof. Ing. Lísal Martin, DSc.
Department of Laser Chemistry - Head: RNDr. Radek Fajgar, CSc.
Department of Advanced Materials and Organic Synthesis - Head: Ing. Jan Storch, Ph.D.
Department of Bioorganic Compounds and Nanocomposites - Head: Ing. Tomáš Strašák, Ph.D.
Supervisory board
Prof. Ing. Vladimír Mareček, DrSc. - chairman
Institute board
Dr. Ing. Vladimír Ždímal – chairman
Postgraduate studies
Postgraduate studies are accredited by the Ministry of Education, Youth, and Sports of the Czech Republic for mutual programmes of ICPF and all the faculties of ICT Prague and other faculties of Czech universities in the following fields:
Chemical engineering
Physical chemistry
Organic technology
Organic chemistry
Inorganic chemistry
Biotechnology
Chemistry and technology of environmental protection
Research projects
ICPF research teams are currently working on dozens of interesting basic and applied scientific projects financed both from national and foreign resources. Selected topics in the following list show the broadness and multi-disciplinarity of the research carried out in the institute's laboratories:
F3 Factory - Flexible, fast and future production processes
Study of polymeric membrane swelling and make use of this effect for increasing its permeability
Optimization of supercritical fluid extraction for maximal yield of biologically active substances from plants
Determination of the phase and state behaviour of fluids and fluid mixtures for process-es at superambient conditions: molecular-based theory and experiment
Computer modelling of structural, dynamical and transport properties of fluids in nanospace
Preparation of hierarchic nanomaterials
HUGE2 - Hydrogen Oriented Underground Coal Gasification for Europe - Environmental and Safety Aspects
Special catalytic processes and materials
Modern theoretical methods for the analysis of chemical bonding
Supported oxidic catalysts containing low amount of active species as catalysts for N2O decomposition
Reactive chemical barriers for decontamination of heavily polluted waters
Removing endocrine disruptors from wastewaters and drinking water using photocatalytic and biological processes
Transport and reaction processes in complex multiphase systems
Determination of the coalescence efficiency of bubbles in liquids
Wall effect in flowing microdisperse liquids: apparent slip and electrokinetical potential
Novel inorganic-organic hybrid nanomaterials
Releasing hydrogen on formation of chemical bonds catalysed by titanium complexes
Whole-cell optical sensors
Preparation of helicene-based chiral stationary phases for HPLC
FLEXGAS - Near zero advanced fluidised bed gasification
Advanced methods of fluid and burner coal and biomass co-gasification
Waste as raw material and energy source
Development and validation of thermal desorption technology using microwave radiation
EUSAAR - European Supersites for Atmospheric Aerosol Research
Influence of surface processes and electromagnetic radiation on transfer phenomena in aerosol systems with nanoparticles and porous bodies with nanopores
Development and application of new experimental methods to measure heterogeneous particles in superheated steam
Preparation of Ti/O/Si based photocatalysts by laser induced CVD and sol-gel technique