Project detail

Flexible energetic systems for smart textile

Duration: 30.11.2014 — 31.12.2017

Funding resources

Technologická agentura ČR - Program na podporu aplikovaného výzkumu a experimentálního vývoje EPSILON (2015-2025)

- part funder (2014-11-30 - 2016-12-31)

On the project

Výzkum tenkých textilních systémů pro uchování elektrické energir

Description in English
The aim of the project is to prepare a new product for the industrial implementation - a system for acquiring and storing energy for low power applications in smart textiles, the so-called 'energy harvesting system'. Industrial preparation of these low-cost , thin and flexible energy sources for smart textile will be implemented by spinning, coating and printing role to role (R2R) technologies. The uniqueness of the system is based on the design of flexible energy sources, especially solar cells and their connections with flexible storage systems such as supercapacitors or thin film batteries. This consist the original system that is not currently on the domestic or foreign market . In order to fulfill the main objectives will be met following objectives: - Development / optimization of materials for the construction of flexible collectors, - Development / optimization of electrode materials with a large active surface area , - Development / optimization of R2R technology for deposition of functionallayers on flexible substrates , foils or textiles. - Development / optimization of materials and deposition technology for the realization of the electrolytic system, - Verification of technology implementation on a pilot scale with focus on subsequent transmission to industrial production , - Development of interlinking flexible storage elements, a power source and incorporation into a comprehensive 'energy harvesting ' system. Immediately after completion of the project will be followed by the preparation of industrial realization and commercialization. Thus, the new production technology with relatively low purchase price , low- consumption of energy and materials will be developed and the research results in the field of nanotechnology will be applied in industrial production. This then opens up further opportunities for the development of Czech industry and increase the competitiveness of Czech Republic in the field with a very high added value of the product.

Keywords
Flexibilní autonomní energetické systémy pro smart textilie

Key words in English
flexible batteries- supercapacitors- energy harvesting- smart textiles- printed electronics- electrolytes- thin layers

Mark

TA04010085_FEKT

Default language

Czech

People responsible

Bača Petr, doc. Ing., Ph.D. - fellow researcher
Sedlaříková Marie, doc. Ing., CSc. - principal person responsible

Units

Results

TOUŠ, M.; VONDRA, M.; TENG, S. Ammonia removal from distillate produced with liquid digestate evaporation in biogas plants. AGRO'2019 - Book of Abstracts. 2019.
Detail

KIMMER, D.; VINCENT, I.; KAZDA, T.; GIURG, A.; ŠKORVAN, O. Some aspects of applying nanostructured materials in air filtration, water filtration and electrical engineering. In NOVEL TRENDS IN RHEOLOGY VII. AIP Conference Proceedings. AIP, 2017. p. 1-11. ISBN: 978-0-7354-1513-3. ISSN: 1551-7616.
Detail