Performance Evaluation of TRL-6 Magnetic Refrigeration Prototypes

被引:0
|
作者
Peixer, Guilherme F. [1 ]
Nakashima, Alan T. D. [1 ]
de Sa, Natalia M. [1 ]
Azeredo, Yan [1 ]
Lorenzoni, Anderson [1 ]
da Luz, Glenda M. [1 ]
Sucaria, Rogerio S. [1 ]
Doring, Allan M. [2 ]
de Faria, Paulo V. [1 ]
Vieira, Bernardo P. [1 ]
Teixeira, Cristiano S. [2 ]
Lozano, Jaime A. [1 ]
Barbosa, Jader R., Jr. [1 ]
机构
[1] Univ Fed Santa Catarina, Dept Mech Engn, POLO Res Labs Emerging Technol Cooling & Thermoph, Florianopolis, SC, Brazil
[2] Univ Fed Santa Catarina, Dept Mat Engn, Lab3M Lab Magnetism & Magnet Mat, BR-89036256 Blumenau, SC, Brazil
来源
2024 IEEE INTERNATIONAL MAGNETIC CONFERENCE-SHORT PAPERS, INTERMAG SHORT PAPERS | 2024年
关键词
Magnetic Refrigeration; Magnetocaloric Materials; Performance Evaluation; Energy Efficiency;
D O I
10.1109/INTERMAGSHORTPAPERS61879.2024.10577075
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Over the last few years, the attention to the carbon footprint of cooling systems has increased substantially, and along with them the demands for the development of more efficient and greener systems. For that, magnetocaloric refrigeration represents a promising solution despite its low technological maturity. This work presents the main finding on the design, commissioning, and performance evaluation of two magnetocaloric prototypes: a wine cooler and an air conditioner. The results demonstrate that the technology still requires improvements regarding the efficiency, cost, and mass of the systems, and the reliability of materials and components. However, investments in technology are expected to soar over the next years due to pressure from society and regulatory agencies.
引用
收藏
页数:2
相关论文
共 50 条
  • [21] Optimization of the performance characteristics in an irreversible magnetic Ericsson refrigeration cycle
    Xia, Z. R.
    Ye, X. M.
    Lin, G. X.
    Bruck, E.
    PHYSICA B-CONDENSED MATTER, 2006, 381 (1-2) : 246 - 255
  • [22] Effect of gadolinium particle size on the performance of a magnetic refrigeration system
    Choi, Jongmin
    Lee, Seungyeon
    Kim, Min Soo
    APPLIED THERMAL ENGINEERING, 2024, 256
  • [23] STUDY OF THE PERFORMANCE COEFFICIENT OF AN ACTIVE MAGNETIC REGENERATIVE REFRIGERATION SYSTEM
    Meddeb, Z.
    Bchiri, D.
    Sidhom, R.
    Chrigui, M.
    Jeday, M. R.
    7TH INTERNATIONAL CONFERENCE ON MAGNETIC REFRIGERATION AT ROOM TEMPERATURE, 2016, : 51 - 54
  • [24] High-performance magnetic refrigeration materials: Prediction and realization
    Tian, Lu
    Mo, Zhaojun
    Sun, Haobo
    Gong, Jianjian
    Gao, Xinqiang
    Liu, Jun
    Liu, Guodong
    Shen, Jun
    JOURNAL OF ALLOYS AND COMPOUNDS, 2024, 991
  • [25] Research on performance of regenerative room temperature magnetic refrigeration cycle
    Yu Bingfeng
    Zhang Yan
    Gao Qiang
    Yang Dexi
    INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID, 2006, 29 (08): : 1348 - 1357
  • [26] Performance Evaluation and Design of Thermo-Responsive SMP Shading Prototypes
    Yoon, Jungwon
    Bae, Sanghyun
    SUSTAINABILITY, 2020, 12 (11)
  • [27] Performance evaluation of Ammonia Absorption Refrigeration cycle based on Exergetic Coefficient of Performance
    Hasabnis, Y. C.
    Bhagwat, S. S.
    INTERNATIONAL JOURNAL OF EXERGY, 2007, 4 (01) : 19 - 37
  • [28] Experimental Performance Evaluation of a PV-Powered Refrigeration System
    Ekren, O.
    Yilanci, A.
    Cetin, E.
    Ozturk, H. K.
    ELEKTRONIKA IR ELEKTROTECHNIKA, 2011, (08) : 7 - 10
  • [29] Performance evaluation of irreversible cascaded refrigeration and heat pump cycles
    Kaushik, SC
    Kumar, P
    Jain, S
    ENERGY CONVERSION AND MANAGEMENT, 2002, 43 (17) : 2405 - 2424
  • [30] Performance evaluation of refrigeration system using nano-fluid
    Kumar, Suraj
    Kanimozhi, B.
    Kumar, M. Sunil
    MATERIALS TODAY-PROCEEDINGS, 2021, 44 : 3838 - 3845
12345