Development of new products and technologies of variable parameters of acoustic quality - by modeling reverberation to modern multifunctional spaces
Project reference number: IP.1.1.03.0148
Project budget: 2.964.727, 43 EUR
Source of funding:
European Regional Development Fund ERDF / Ministry of Regional Development and EU Funds
Project duration: 01.11. 2024. – 31.10.2027.
Project coordinator: Franakustik d.o.o., Cesargradska ulica 3A, 10000 Zagreb
Project partners:
lux installatio j.d.o.o., Fanje Miličića 18, 44250 Petrinja
PILIMINI METAL d.o.o., Dr. Luje Naletilića 40, 10000 Zagreb
QUANTUM STUDIO d.o.o., Udbinska ulica 40, 10000 Zagreb
Ingenium consulting d.o.o., Trg 22. lipnja 2, 44000 Sisak
University of Zagreb Faculty of Forestry and Wood Technology, Svetošimunska cesta 23, 10000 Zagreb
University of Zagreb Faculty of Textile Technology, Prilaz baruna Filipovića 28a, 10000 Zagreb
Project leader at partner institution (TTF): Assist. Prof. Miljenko Krhen, Ph.D.
Project summary:
The project researches and develops advanced acoustic panels with a focus on innovative materials and technologies such as nano coatings and perforated designs. The goal is to create high-quality, aesthetically adaptable and environmentally friendly solutions that improve sound insulation and absorption in various spaces, from commercial to residential buildings. The project includes research, prototype development, testing and preparation for commercialization. The goal of the project is to develop and commercialize innovative acoustic panels that provide superior sound insulation and absorption, improve the quality of life and work space, and contribute to sustainable development through the use of environmentally friendly materials and technologies.
Expected project results:
The project will result in 4 developed innovative products based on at least the same number of technical-technological solutions and concepts that make up the entire system for the installation and placement of panels to achieve variable room acoustics. The system and individual prototypes will be tested in real conditions.
The final result of the project will be developed and fully tested, specifically developed through this project with the aim of achieving the desired effect of changing the reverberation time within the expected limits. Upon completion of this project, the development of the first version of the final product will begin, which has been proven by the tests carried out to work in its final form and in the expected conditions and provides the expected results and effects.
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