The main objective of the proposed project is to develop a systematic computer-aided framework that would guide the development of FCM technologies covering all stages of development from initial concept, through early design, manufacturing, testing, and evaluation, to final commissioning of the technology. To achieve this ambitious goal, adaptation of existing and development of new concepts (e.g. FCM heat and mass integration, FCM sustainability etc.) and computer-aided tools (algorithms, modeling formulations and solution strategies) would be explored and developed.

Keywords
microprocess technology, microprocess synthesis, microprocess design, microprocess integration, computational tools, process modelling, computer-aided process optimization, computer-aided process design

25-20011L

English

Varbanov Petar Sabev, prof. Ing. Dr. habil., Ph.D. - principal person responsible

Sustainable process integration laboratory
- responsible department (11.1.2024 - not assigned)
Sustainable process integration laboratory
- beneficiary (11.1.2024 - not assigned)

Petro Kapustenko, Stanislav Boldyrev, Martín Picón-Núñez, Krzysztof Urbaniec, Bohong Wang, Petar Sabev Varbanov. Editorial: Special issue on process integration, modelling and optimisation of thermal systems for increased energy security and sustainability (PRES'23). Thermal Science and Engineering Progress, 2024, vol. 56, no. 1, p. 103045-103045.
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POLYVIANCHUK, A.; MALYARENKO, V.; KAPUSTENKO, P.; POLYVIANCHUK, N.; PETRUK, H.; ARSENYEVA, O. Estimation of energy, economic and environmental efficiency for renovation of building heating system. Clean Technologies and Environmental Policy, 2025, vol. 27, no. 12, p. 8797-8812.
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ARSENYEVA, O.; BILETSKYI, I.; PLANKOVSKYY, S.; KAPUSTENKO, P.; TSEGELNYK, Y.; TELIURA, N. Heat Recovery Systems From Sewage. In Advances in Civil and Industrial Engineering, Sustainable Development and the Evolution of Civil Engineering. IGI Global, 2025. p. 69-106. ISBN: 9798369324486.
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KAPUSTENKO, P.; KRAVANJA, Z.; PLAZL, I.; VARBANOV, P.; ARSENYEVA, O.; NEMET, A.; TOVAZHNYANSKYY, L. Selection of Heat Transfer Enhancement Technique for Compact Mini and Micro Heat Exchangers Design. Chemical Engineering transactions, 2025, vol. 120, no. OKTOBER, p. 475-480.
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Responsibility: Varbanov Petar Sabev, prof. Ing. Dr. habil., Ph.D.