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Sistema de almacenamiento cinético de electricidad

Resumen

Tipo:
Oferta Tecnológica
Referencia:
TORU20151120002
Publicado:
08/12/2015
Caducidad:
08/12/2016
Resumen:
Una empresa rusa especializada en investigación científica en el campo de tecnologías de bajo consumo ha desarrollado un sistema de almacenamiento cinético de electricidad de nueva generación. El sistema consiste en la separación de un módulo de segmentos/placas de alta temperatura y un módulo generador donde una cavidad interna es aspirada hasta una descarga de alto grado. La acumulación de carga en el dispositivo se basa en el efecto de superconductividad de alta temperatura. Se buscan socios con el fin de establecer acuerdos de cooperación técnica.

Details

Tittle:
Kinetic electric energy storage system.
Summary:
The Russian ¿ompany based in Chelyabinsk specializes in scientific research in the field of energy saving technologies. The ¿ompany has developed a kinetic electric energy storage system of new generation (the system consists from the separation of high-temperature segments/plates module and generator module where an inner cavity is vacuumized up to high degree discharge). The company is searching for partners to conclude technical cooperation agreement.

Description:
The company from Chelyabinsk region has developed the kinetic energy storage device in the form of packaged unit-module. Along with the growth of quantitative index of energy security, quality index of energy use at different stages of its conversion plays more and more crucial role. A significant role in these issues solution is given to energy storage system that is an important intermediate link between generation and distributor -Y- energy consumption systems. The accumulation of charge in the device is based on the effect of high temperature superconductivity. The optimum shape and the construction of the component parts of the device are determined by methods of mathematic simulation and semi-realistic testing. The hull consists of cryostat module with superconductive segments/plates placed within and generator module with high degree of internal
vacuuming. Made of two modules storage hull performance (alternatively to its analogies) allows to optimize the solution of two interdependent problems:
- to vacuumize the inner cavity of the flywheel;
- to improve cooling efficiency of superconductive segments/plates.
The implementation of such a device allows to achieve the following tasks:
- energy wastage of electrical power network up to 30% reduction;
- uninterrupted power supply maintenance of high-security objects;
- development of high-speed electric transport technologies.
Under the technical cooperation agreement the author of the technology creates computer modeling and selection of optimal design of all the component of the device (materials of plates, rotor, nitrogen cryostat, vacuum system etc.) with application of supercomputer technologies and designs fundamental functional scheme. A partner should conduct comprehensive tests of developed device and estimate its efficiency and operational characteristics. After completion of the project the partner should certify the device in accordance with the requirements of the European Union. The expected result is the creation the box version of the product for the foreing markets.
Advantages and Innovations:
The novelty of the proposed energy storage construction lies in the separation of high-temperature plates and segments module and also generator module where the inner cavity is vacuumized up to high degree discharge. It allows to reduce the resistance in flywheel rotary mode resulting from gas medium existence within the hull. Proposed innovative solution gives a variety of advantages like:
- reducing fuel consumption and equipment wear rate by means of friction force reduction in the vacuum;
- reliability growth of electrical power supply;
- maintaining of output-input ratio of turbine generators by peak ratings regulation;
- compact equipment.
Stage of Development:
Under development/lab tested
IPs:
Patents granted
CommeR Statunts Regarding IPR Status:
Software program, RF, 2011.

Partner sought

Type and Role of Partner Sought:
Type: universities, R-Y-D SME.
Sphere: energetics, energy efficiency technology.
Role: joint development and certification.

Client

Type and Size of Client:
Industry SME <= 10
Already Engaged in Trans-National Cooperation:
Si
Languages Spoken:
English

Keywords

Technology Keywords:
04007001 Gestión de la energía
04007003 Optimización de procesos, utilización de energía residual