Objective and Scope
Thermophysical properties of substances in gas, liquid, solid phases play an important role in many technical and industrial processes. The basis of nearly all technical processes are the mass, energy, momentum, entropy, and exergy balances and the thermophysical properties of substances. Thermophysical properties are experimentally measured and equations of state are constructed from these results. Today it is possible to calculate thermophysical properties using molecular theory for simple substances. Mechanical and rheological properties are also of primordial importance in characterization of materials. Their knowledge is important in determining the end use of materials. This conference objective is to report on current research development in this active area and serve as a forum for discussions and collaborations.
Conference Main Topics
- Alternative and Renewable Energy
- Alternative Solvents
- Chemical Thermodynamics
- Data Correlation
- Equations of state
- Fuels and bio-fuels
- Inverse Problems, Modelling
- Interfacial Properties
- Ionic Liquids
- Measurement Techniques
- Molecular and Statistical Thermodynamics
- Molecular Simulation and Modelling
- Nanofuids, Nanocomposites
- New Materials and Materials Design
- Phase Equilibria
- Physical Chemistry
- Properties of aqueous electrolyte solutions and sea water
- Rheological properties
- Standard Data and Materials
- Thermodynamic Properties
- Thermoacoustic Properties
- Thermophysical Properties
- Transport Properties
- Other proposals on measurement techniques and materials are welcome
Prof. Egon HASSEL – Head of Institute of Technical Thermodynamics, University of Rostock, GERMANY
Prof. Astan SHAHVERDIYEV – Head of Department of Heat Energy, Azerbaijan Technical University, Baku, AZERBAIJAN
Prof. Ismail TAVMAN – Department of Mechanical Engineering, Dokuz Eylul University, Izmir, TURKEY
Dr. Jürgen NOCKE, University of Rostock, GERMANY
Dr. Javid SAFAROV, University of Rostock, GERMANY
Dr. Misirkhan TALIBOV, Azerbaijan Technical University, AZERBAIJAN
Dr. Alpaslan TURGUT, Dokuz Eylul University, TURKEY
Conference fee is 200 Euro (include Conference Materials, Coffee Breaks). Meals and Hotel are not included.
Abstract book will be as PDF file with ISBN number.
The conference will take place at the Conference Halls of Mechanical Engineering and Shipping Technology Faculty, University of Rostock, Germany, located at the south side of Rostock, near the Main Train Station (Hauptbahnhof). Additional Information is here.
The airport Rostock-Laage is served with several direct flights from several German and some European cities. We recommend you also to use Hamburg or Berlin international airports. From Hamburg and Berlin you can travel to Rostock by train (German Rail – Deutsche Bahn).
Airport Rostock-Laage - www.rostock-airport.de
Hamburg Airport - https://www.hamburg-airport.de
Berlin Airports - http://www.berlin-airport.de
The city of Rostock is located at the estuary of the Warnow river, with the city-center being positioned about 12 kilometres south to the coast of the Baltic Sea. Rostock was founded in the 11th century, but the rise of the city got started with its membership of the Hanseatic League, beginning in 1251. In the 14th century Rostock was a signifcant seaport and market place. After the reformation and the thirty-years-war, ending in 1648, the importance of the city stalled, but Rostock re-emerged in the 19th century with the industrialization of Germany. Today, with about 200000 citizens, Rostock is the largest city in the north German state Mecklenburg-Vorpommern.
The University of Rostock is the third oldest university in Germany in continuous operation, and was founded in 1419 by confirmation of Pope Martin V. At the end of the 19th century the university was transformed into a modern university following the Humboldtian model based on Friedrich Schleiermacher's liberal ideas pertaining to the importance of freedom, seminars, and laboratories in universities. Today, the university employs about 3000 people, with about 300 professors representing nine faculties. The university is currently home to about 14400 students.