Project title: Research and development of ionic biofluids
Project within the invitation of the PROMIS fund for science of the Republic of Serbia
Project manager: dr. Siniša Bikić Assoc. prof.
Team: Faculty of Technical Sciences (3 members) and Faculty of Agriculture (3 members)
Research field: fluid mechanics and agriculture; nanofluids; ionic biofluids
Methodology: analytical, experimental, numerical
Project duration: August 2020 - August 2022.
Ionic biofluids as a significant transmission potential and thermal energy storage
FTN participant in the RS Science Fund project
At the end of August this unusual year, a new project came out of the shadow of the pandemic called Research and Development of Ionic Biofluids (acronym: RIDIBF), announced within the public call of the PROMIS Science Fund.
Project manager prof. Dr. Siniša Bikić from the Department of Fluid Mechanics and Hydropneumatic Systems of the Department of Energy and Process Engineering, with long-term participation in various international actions dealing with nanofluids, formed a six-member team of scientists from the Faculty of Technical Sciences and the Faculty of Agriculture in Novi Sad with the goal of:
In the last twenty years, the properties of nanoparticle suspensions in the basic liquid, called nanofluids, have been intensively investigated. The importance of nanofluids is reflected in the ability to significantly improve the transfer and storage of heat energy and thus increase the efficiency of heat exchangers, heat accumulators, hydraulic systems, etc., while reducing greenhouse gas emissions.
Participants in this project are particularly interested in a completely new class of nanofluids – ionic fluids, and especially ionic biofluids in which nanoparticles are suspended biological materials (eg straw, corn stalks, sunflowers, soybeans, hazelnut shells, walnuts, etc.) available in the AP Vojvodina.
Procurement of several devices intended for experimental testing of physical and hydraulic properties of ionic biofluids, the comprehensive knowledge of which is the basis of their correct choice for various applications, is in progress. The results of this research will bring new scientific information that can contribute to raising the level of technological readiness of nanofluids for their further application.
The project lasts for two years, and we expect the first results soon and we will be happy to share them with you.