A French Technology Transfer Office offers a innovative algorithm for designing turbine blades

OFFER from France, reference: TOFR20180726001, valid from 26-07-2018 untill 05-09-2020

Technology
  • Title:
    A French Technology Transfer Office offers a innovative algorithm for designing turbine blades
  • Start date:
    26 juli 2018
  • End date:
    5 september 2020 (3 weken geleden)
  • Summary:
    A French Technology Transfer Office (TTO) offers an innovative algorithm for designing turbine blades.
    The French TTO is looking for interested industrial designers for a licensing agreement or for a technological cooperation agreement.
  • Description:
    A French Technology Transfer Office (TTO) is acting on behalf of major laboratories in the Paris region, has designed and patented a method for designing turbine blades.

    * Market challenges :
    For the design of blades, whether for wind/water turbines or agri-food mixers, it has become necessary to benchmark new materials according to the size and/or use of the piece. Whether for resistance or performance issues, many parameters must be considered.

    if the designing methods for large blades are well known and the market is mature, there are still opportunities in the development of small wind turbines (less than 10 meters) for individuals. There are also needs in the agrofood industry for more efficient blades for industrial agitators.

    * State of the art :
    Currently, small blades of wind turbines are designed with the same parameters as large which does not make them optimal especially as it becomes necessary to use new materials always lighter and stronger. The same design techniques are used for water turbines and agri-food agitators.

    * Proposed technology :
    The laboratory has developed an algorithm for designing turbine blades. Depending on a selected material, it allows to calculate the best possible dynamics for the blade and thus to deduce its shape, taking into account in particular their Young's modulus and their density. The algorithm can also extend the optimal working regime of the turbine blade.

    *partnership :

    The partner sought could be a company interested in :
    - a license agreement (the TTO is able to negotiate directly the intellectual property transactions for specific applications), or
    - a technical cooperation agreement in order to improve an existing device with this method.

    *Keywords :
    #blades
    #wind
    #hydrokinetic
    #power windmill
    #conversion rate
Partner Sought
  • Type of Partnership Considered:
    License agreement, Technical cooperation agreement
  • Technical Specification or Expertise Sought:

    The partner sought could be a wind or a hydro turbine manufacturers interested in :
    - a license agreement (the TTO is able to negotiate directly the intellectual property transactions for specific applications), or
    - a technical cooperation agreement in order to improve an existing device with this method.

    SME 11-50,SME <10,>500 MNE,251-500,SME 51-250,>500

Organisation
  • Development stage:
    Under development/lab tested
  • IPR Status:
    Patents granted
  • Market keywords:
    Hydro-electric
    Wind energy
    Marine energy
    Other Industrial Products (not elsewhere classified)
  • Technology keywords:
    Construction engineering (design, simulation)
    Turbines
    Hydropower
    Wind energy
    Food Processing
  • NACE keywords:
    Other research and experimental development on natural sciences and engineering
  • Advantages and Innovations:
    The developed algorithm allows to :

    - design of both vertical and horizontal blades.
    - design of active and passive blades.
    - have a large operative range
    - manufacture with low energy
    - set-up easily a new model
Client
  • Type and Size of Organisation:
    Industry SME 11-49
  • Already Engaged in Trans-National Cooperation
    Ja
  • Year Established:
    2012
  • Turnover:
    <1M
  • Country of origin:
    France
  • Languages spoken
    • English
    • French