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Energy storage: feasibility study to collect, store and release energy from solar origin, using a kinetic battery stockage

Technical Report:

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Abstract

The feasibility of using solar energy to feed an autonomous station providing electric current continuously was studied. As an energy storage device a 'superflywheel' (rotor with composite fibers - magnetic bearings) would be used. Results show that such an experiment can be reasonably envisaged only in highly sunny countries and that it becomes non profitable at our latitudes, despite the very good performance of the flywheel storage device.
Authors:
Publication Date:
Feb 01, 1976
Product Type:
Technical Report
Report Number:
N-76-27695; CNES-NT-31
Reference Number:
ERA-02-041565; EDB-77-093285
Subject:
25 ENERGY STORAGE; 14 SOLAR ENERGY; FLYWHEEL ENERGY STORAGE; FEASIBILITY STUDIES; SOLAR THERMAL POWER PLANTS; COMPOSITE MATERIALS; FLYWHEELS; MAGNETIC BEARINGS; BEARINGS; ENERGY STORAGE; POWER PLANTS; SOLAR POWER PLANTS; STORAGE; 250500* - Energy Storage- Flywheels; 140700 - Solar Thermal Power Systems
OSTI ID:
7314122
Research Organizations:
Centre National d'Etudes Spatiales, 31 - Toulouse (France)
Country of Origin:
France
Language:
French
Availability:
NTIS $3.50.
Submitting Site:
HEDB
Size:
Pages: 21
Announcement Date:
May 01, 1977

Technical Report:

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Citation Formats

Tatry, B. Energy storage: feasibility study to collect, store and release energy from solar origin, using a kinetic battery stockage. France: N. p., 1976. Web.
Tatry, B. Energy storage: feasibility study to collect, store and release energy from solar origin, using a kinetic battery stockage. France.
Tatry, B. 1976. "Energy storage: feasibility study to collect, store and release energy from solar origin, using a kinetic battery stockage." France.
@misc{etde_7314122,
title = {Energy storage: feasibility study to collect, store and release energy from solar origin, using a kinetic battery stockage}
 author = {Tatry, B}
 abstractNote = {The feasibility of using solar energy to feed an autonomous station providing electric current continuously was studied. As an energy storage device a 'superflywheel' (rotor with composite fibers - magnetic bearings) would be used. Results show that such an experiment can be reasonably envisaged only in highly sunny countries and that it becomes non profitable at our latitudes, despite the very good performance of the flywheel storage device.}
 place = {France}
 year = {1976}
 month = {Feb}
 }