A Novel Iris Mechanism for Solar Thermal Receivers

Citation data:

Journal of Solar Energy Engineering, ISSN: 0199-6231, Vol: 139, Issue: 6, Page: 061004

Publication Year:
2017
Usage 3
Abstract Views 3
Captures 7
Readers 7
Social Media 10
Tweets 10
Citations 1
Citation Indexes 1
DOI:
10.1115/1.4037745
Author(s):
Cédric Ophoff; Nesrin Ozalp
Publisher(s):
ASME International
Tags:
Energy
Most Recent Tweet View All Tweets
article description
Variable aperture mechanisms are being used in many fields including medicine, electronics, fluid mechanics, and optics. The main design characteristics of these aperture concepts are the use of multiple blades regulating aperture area and consequently the incoming medium flow. Manufacturing complexities primarily depend on the concept geometry, material, and the process application requirements. Design of a variable aperture demands meticulous methodology and careful consideration of the application field. This paper provides an in-depth methodology on the design of a novel iris mechanism for temperature control in high temperature solar thermal receivers and solar reactors. Such methodology can be used as a guideline for iris mechanisms implemented in other applications as well as in design of different apparatuses exposed to high temperature. Optical simulations in present study have been performed to demonstrate enhanced performance of the iris mechanism over conventional Venetian blind shutter serving as optical attenuators in concentrating solar power systems. Results showed that optical absorption efficiency is improved by 14% while reradiation loss through the aperture is reduced by 2.3% when the iris mechanism is used. Correlation for adaptive control of aperture area was found through computational surface area measurement. Experimental testing with a 7 kW solar simulator at different power levels demonstrated the performance of the mechanism to maintain stable temperature under variable flux.