Development of a Self-Regulating Solar Shading Actuator Based on the Thermal Shape Memory Effect-Reference-Cited by-同舟云学术

Development of a Self-Regulating Solar Shading Actuator Based on the Thermal Shape Memory Effect

Published:2024-02-22 Issue:3 Volume:13 Page:85
ISSN:2076-0825
Container-title:Actuators
language:en
Short-container-title:Actuators

Author:

Stelzmann Mario¹^ORCID,Zakner Felix¹,Navarro de Sosa Iñaki²^ORCID,Nemati Amir³^ORCID,Kahnt Alexander¹,Maaß Burkhard²,Drossel Welf-Guntram³

Affiliation:

1. Sustainable Construction Research Group, Structural Concrete Institute, Leipzig University of Applied Sciences (HTWK Leipzig), 04277 Leipzig, Germany

2. Ingpuls GmbH, 44894 Bochum, Germany

3. Institute for Machine Tools and Production Process, Faculty of Mechanical Engineering, 09126 Chemnitz, Germany

Abstract

In the field of adaptive building technologies, this research introduces the development of a self-regulating solar shading actuator that utilizes the thermal shape memory effect. The study focuses on addressing the actuator’s performance under diverse environmental conditions. Thermal simulations were carried out during the development of the individual components of the actuator and for the prediction of specific switching temperatures. The investigation includes an analysis of the sunshade’s response to varying environmental conditions, emphasizing its effectiveness on clear summer days and identifying challenges during overcast periods. The critical coordination between the solar collector and the shape memory alloy (SMA) wire is examined, shedding light on the impact of SMA temperature dynamics on the actuation performance. Through the integration of simulation data and real-world measurements, the study validates the thermal model for the solar collector, establishing the robustness of the system’s operation. This research work contributes significantly to the development of intelligent actuators and outlines the importance of validation of SMA-based applications under real conditions.

Funder

Bundesministerium für Bildung und Forschung

Hochschulbibliothek of Leipzig University of Applied Sciences

Publisher

MDPI AG

Link

https://www.mdpi.com/2076-0825/13/3/85/pdf

Reference33 articles.

1. Stelzmann, M., Schreier, M., Navarro de Sosa, I., Schurig, M., Syga, K., and Nemati, A. (2023). Schlussbericht Smartskinreal: Zwanzig20—Smart3—Verbundvorhaben—SmertSkinReal—Entwicklung und Monitoring eines Verschattungssystems mit FGL-Steuerung; TP1: Ermittlung von Einflüssen auf Schalttemperaturen, Tibleibniz Information Centre for Science and Technology University Library. Report.

2. Navarro de Sosa, I. (2017). Smartskin—Entwicklung von Selbstregulierenden Sonnenschutzkomponenten für die Gebäudehülle auf Basis des Thermischen Formgedächtniseffektes: Teilprojekt: FGL-Aktorsystem: Akronym: S3-Smartskin-VI: Schlussbericht, Tibleibniz Information Centre for Science and Technology University Library. Report.

3. Lagoudas, D.C. (2008). Shape Memory Alloys. Modeling and Engineering Applications, Springer.

4. Navarro de Sosa, I., Ruff, M., Kirmse, S., Kahnt, A., and Drossel, W.-G. (2018, January 25–27). Self-regulating Solar Shading System for the Building Envelope Based on Thermal Shape Memory Effect. Proceedings of the ACTUATOR 2018: 16th International Conference on New Actuators, Bremen, Germany.

5. (2023, June 27). Großlamellen aus Aluminim für den Sonnenschutz Colt Solarfin—Colt. (n.d.). Available online: https://www.colt-info.de/grosslamellensystem-solarfin.html.

Cited by 1 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. A Systematic Review of the Most Recent Concepts in Kinetic Shading Systems with a Focus on Biomimetics: A Motion/Deformation Analysis;Sustainability;2024-07-03