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Czech Aerospace Research Centre – Prague Science and Technology Park

Beranových 130
199 05 Praha – Letňany
Tel.: +420 225 115 111
E-mail: vtp@vzlu.cz
WWW: https://www.vzlu.cz/vtp/

Park location on the map: here

Reg.nr.: 00010669
Director: JUDr. Petr Matoušek (petr.matousek@vzlu.cz)

  • Operating data of the park

    Membership in STPA: YES
    State of the park: accredited
    Partner in project SPINNET: NO
    Launch day: 10.3. 2010

    Founder(s): Czech Aerospace Research Centre
    Owner(s): Czech Aerospace Research Centre
    Operator(s): Czech Aerospace Research Centre

    Type of entity: Joint stock company (JSC)
    Criteria for acceptance of innovation firm: individual

  • Description of the park

    Introduction

    Science and Technology Park VZLÚ Prague is placed in Prague – Accredited Science and Technology Park VZLÚ Prague is placed in Prague – Letnany near Metro station named Letnany (C line) and near PVA – Prague Exhibition Centre. Founder, owner and operator of the Park is Výzkumný a zkušební letecký ústav, a.s. (Czech Aerospace Research Centre, VZLÚ). The Park is a part of regional inovative infrastructures and plays active role in development of knowledge economy and industry with main focus on Aerospace, Defence and Security. Innovative neighborhood is also suitable for automotive industry, railway industry, power engineering and civil engineering. In the Park there are available several spaces for wide range of activities – offices, laboratories, workshops and stores. The Park offers a lot of services which are needed by innovative companies, e.g. consulting in R&D, consulting in industrial property rights, support of R&D results transfer, education, information technology as well as consulting in law or economics, etc. Available are also conference and meeting rooms with capacity up to 60 seats, completely equipped with presentation technology. Inovative business is supported also in form of science and technical workshops (e.g. aerodynamics, composites, strength and durabiloty of structures) which are focused on transfer of knowledge. The Park accomplished number of a succesful transfers of technology, e.g. infusion technology for manufaturing of composite structures (multiply), technology of friction stir welding, algorithms for aerodynamics calculations etc. On the occasion of the celebration of the centenary of the founding, the Research and Experimental Aviation Institute opened a new building called “C3T – Czech Center for Competitive Technologies.” The building will serve both the Research and Experimental Aviation Institute (VZLÚ), which will thus replace some laboratories and other experimental workplaces in the already inadequate spaces, as well as innovative companies that have special infrastructure requirements, especially in fields focused on space technology.

    Description of technology transfer

    VZLUSAT-1 a Czech nanosatellite of a CubeSat
    Application of composite technology for aircraft propellers manufactures
    A true innovation in batteries – efficient energy storage
    Bonding technology of PTFE sealing into suction pipeline of aerial engine
    Technology of preparation and application of paint systems containing MWCNT

    Innovative entrepreneurship training

    Organization of excursions and opponency of projects

    Advisory services

    technological advisory, patent advisory, certification advisory, financing advisory, legal advisory, education (courses for enterpreneurs), secretarial services, telephone exchange, telephone, fax, text processing, reception, conference space, computer for technical usage, workshops, laboratories

    Innovation infrastructure

    The Park is a part of regional inovative infrastructures and plays active role in development of knowledge economy and industry with main focus on Aerospace, Defence and Security. Innovative neighborhood is also suitable for automotive industry, railway industry, power engineering and civil engineering.

    Cooperation with universities

    The Czech Technical University in Prague
    Brno university of technology
    University of Chemistry and Technology Prague

  • Services provided to innovation companies

    by STP
    external
    Consultancy
    NE
    ANO
    business plans
    ANO
    ANO
    technological advisory
    ANO
    ANO
    patent advisory
    ANO
    ANO
    certification advisory
    ANO
    ANO
    financing advisory
    NE
    ANO
    accounting
    ANO
    ANO
    legal advisory
    NE
    ANO
    marketing advisory
    ANO
    ANO
    education (courses for enterpreneurs)
     
    by STP
    external
    Technical services
    ANO
    NE
    secretarial services
    ANO
    NE
    telephone exchange
    ANO
    NE
    telephone, fax
    ANO
    ANO
    copy
    ANO
    ANO
    text processing
    ANO
    NE
    reception
    NE
    ANO
    buffet, cantine
    ANO
    NE
    conference space
    ANO
    NE
    computer for technical usage
    ANO
    NE
    workshops
    ANO
    NE
    laboratories
    NE
    ANO
    access to data banks
    NE
    ANO
    exhibition space
     
    by STP
    external
    Financing
    NE
    ANO
    equity
    NE
    ANO
    credits
    NE
    ANO
    subsidies
    NE
    ANO
    other forms

  • Service expenses

    STP service costs
    ANO
    only according to actual costs
    NE
    only fixed payment tariff
    NE
    fixed payment and additional charge for use
    NE
    in lumps: rent, security, cleaning, phone, post
     
    Oher costs (p.a.)
    acc. to usage
    fixed CZK/m2
     
    heating
    ANO
     
    electricity
    ANO
     
    others
    ANO
     
    total
     
     
     
    Rent (p.a.)
    CZK/m2
     
    office space
    3300
     
    production space
    1650
     
    others
    1000
     

  • Statistical data

     
    innovation
    other
    institutions
    TOTAL
    Companies
    6
    48
    6
    60
    Employees
    70
    165
    20
    255
    Rented area m2
    4880
    22140
    1100
    28120
     
     
    STP
     
    Land area
    232981 m2
     
    Built up park area
    84130 m2
     
    Utility area
    31051 m2
     
    – Rented area
    28120 m2
     
    = Remains for rent
    2931 m2
     

  • Innovation companies

    HE3DA s.r.o.
    Reg.nr.: 28949935
    HE3DA Ltd. is an innovator in applied research and commercialization of battery technologies. The company’s 3D technology and Li-battery production processes are based on three dimensional electrodes using lithium nano-materials (patented HE3DA® technology).

    Tel.: + 420 225 115 306
    E-mail: info@he3da.cz
    WWW: http://www.he3da.cz/

    Technologies:
    0200 – Power engineering
    0202 – Power engineering, power electronics (other)
    0204 – Solar engineering
    0206 – Storage techniques
    1104 – Nanotechnology (other)

    Branches:
    29 – Manufacture of machinery and equipment n.e.c.
    31 – Manufacture of electrical machinery and apparatus n.e.c.
    73 – Research and development

     

    NIMDA Co. Ltd. – organizační složka
    Reg.nr.: 26718481
    Development and manufacturing for military and defence

    Josef Havlík
    Tel.: +420-225115419
    Fax: +420-225115424
    E-mail: info@nimda.cz
    WWW: http://www.nimda.cz

    Technologies:
    1404 – Rail- and road-traffic engineering
    9000 – Hydraulics and Mechanics

    Branches:
    29 – Manufacture of machinery and equipment n.e.c.
    73 – Research and development

     

    Prusa Research s.r.o.
    Reg.nr.: 24213705
    The Czech Producer of 3D Printers.

    E-mail: info@prusa3d.cz
    WWW: http://www.prusa3d.cz

    Technologies:
    0300 – Production and process engineering
    9003 – Design
    9007 – Fabrice from Plasticine
    9011 – Software development

    Branches:
    73 – Research and development

     

    SERENUM, a.s.
    Reg.nr.: 01438875
    SERENUM’s mission is to provide customers with comprehensive solutions in the area of electronics [PDF] and mechanics [PDF] design and development. The focus is on inertial and measurement systems as well as time and frequency control and mechanical design and processing of parts or subsystems (cases, mechanisms, locking devices, fixtures) including theoretical and numerical analysis, for space and terrestrial applications. Due to our company know-how, we can serve our partners with customized turn-key solutions also for other application segments. The aim is to supply top products and services with superior reliability and quality which are at the forefront of the corresponding technical domain. We treat our customer requirements with maximum consideration and helpfulness. Highly versatile solutions are offered to address customer needs.

    Mgr. Radek Peřestý
    Tel.: +420 225 115 107
    E-mail: info@serenum.cz
    WWW: http://www.serenum.cz

    Technologies:
    0903 – High-speed electronics
    0906 – Microelectronics (other)
    1005 – Signal processing in microsystems
    1403 – Aerospace engineering

    Branches:
    73 – Research and development

     

    SPEEL Praha, s.r.o.
    Reg.nr.: 49703374
    Research and development of avionics systems

    Fax: +420-286923721
    E-mail: info@speel.cz
    WWW: http://www.speel.cz

    Technologies:
    0801 – Measurement and control
    0900 – Microelectronics
    0904 – Information storage technology
    1000 – Microsystems engineering
    1402 – Aviation engineering
    1404 – Rail- and road-traffic engineering
    9900 – Other

    Branches:
    31 – Manufacture of electrical machinery and apparatus n.e.c.
    62 – Air transport
    73 – Research and development

     

    Stratosyst s.r.o.
    Reg.nr.: 08135738
    There is an unused potential that stratosphere can provide us for exploring our universe because thick bottom atmosphere blocks out most of the infrared wavelengths. Currently the cost for obtaining infrared data is high becouse the only method is observation from satellites. Also, the number of orbital infrared observatories is low so this makes the procedure for obtaining customer-specific data is very time-consumig. The advantage of stratosphere observation by Stratosyst is that space sky can be observed for an extremely long period of time in conditions comparable to space satellites for a fraction of the cost. Moreover, the hardware will be recovered after the end of each mission. The prototype will be a fully functional infrared observatory which will stay in the stratosphere (higher than 20km) and maintain the position over extended period of time. Position of the platform will be feedback-controlled by GNSS data.

    Martin Farkač
    Tel.: +420776355314
    E-mail: info@stratosyst.com
    WWW: http://www.stratosyst.com/

    Technologies:
    0400 – Information and communications technology
    9001 – Controlling Systems
    9010 – Monitoring Systems

    Branches:
    72 – Computer and related activities
    73 – Research and development
    93 – Other service activities

  • Subject:
    TRIcEPS – Tilt Rotor Integrated Air intake and Engine Protection Systems
    Country:
    Austria
    Type of cooperation:
    common project
    Description: Development of integrated engine air intake and protection systems for Tilt Rotor” by designing, manufacturing, testing and qualifying the left-hand and the right-hand side air intakes and their integrated engine protection system for the NextGenCTR technology demonstrator, contributing to meet the goals of the CS2JU FRC WP1. TRIcEPS will deliver the air intake, its engine protection system and all the relevant sub-systems at TRL 7.
    Contact web:
    Contact e-mail:

    Subject:
    3TANIUM
    Country:
    Austria
    Type of cooperation:
    common project
    Description: The main objective of the 3TANIUM is the establishment of NDT methods that are capable to provide the secure detection of process related critical flaws and defects and to understand their effects on material and mechanical properties in Ti6A l4V AM parts. The overall aim of the proposed 3TANIUM project is the quantitative assessment of the applicability of NDT methods applied on appropriately and innovatively post-treated (heat- and surface-treated) AM parts to realize benefits offered by AM in the aeronautical industry. Therefore, evaluation of reliable Non-Destructive Testing and Analysis (NDT/NDA) techniques for precisely and securely assessing eventual defects and their criticality in AM parts will be performed.
    Contact web:

    Subject:
    SSA P3-SWE-LIII NANOSATELLITES FOR D3S
    Country:
    Great Britain
    Type of cooperation:
    common project
    Description: ESA project to develop a satellite for observing of space weather. The project is led by Surrey Satellite Limited. VZLU provides support in the field of nanosatellite technologies and mission creation.
    Contact web:
    Contact e-mail:

    Subject:
    Full Fairing for Main Rotor Head of the LifeRCraft demonstrator (LATTE)
    Country:
    France
    Type of cooperation:
    common project
    Description: The project solved within the European program of the joint technology initiative JTI Clean Sky 2 is focused on the development and production of a composite structure of the head cover of the main rotor of a high-speed helicopter for AIRBUS Helicopters. The output of the project will be a flight cover designed for ground and flight tests of the helicopter prototype, which now bears the name RACER. The project is led by the Polish aviation research institute ILOT, VZLÚ participates in the structural design, strength calculations, material and functional tests of the covers and the construction of production fixtures. LA composite provides the production of flight parts.
    Contact web:
    Contact e-mail:

    Subject:
    ESTEC
    Country:
    Netherlands
    Type of cooperation:
    common project
    Description: Project AMBIC – The aim of the proposed mission is to build a constellation of microsatellites for the observation of the Earth for government purposes, demonstrating the real capabilities of the Czech Republic.
    Contact web:
    Contact e-mail:

    Subject:
    ESTEC
    Country:
    Netherlands
    Type of cooperation:
    common project
    Description: „CubeSat and Small Satellite Position Control System
    The goal of the project is to develop an attitude control system (3U or larger) with an overlay study for small satellites (10-100kg). In this project, an implemented ACS CubeSat system will be developed and verified with an ACS computer with a real-time operating system (RTOS) with ACS algorithms using magnetotorques and reaction wheels as actuators and a Star Tracker (STR) for positioning up to TRL5.“
    Contact web:
    Contact e-mail:


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