1. Micro/nano capsules-based thermal energy storage and applications
- 열에너지 저장을 위한 마이크로/나노 캡슐 합성 및 열물성 분석
- 열저장 및 CO2 흡착 기능을 갖는 하이브리드 캡슐 개발
- 열저장 캡슐을 이용한 나노포러스 구조의 단열 필름 개발
<용융염 마이크로 캡슐 합성>
<용융염 마이크로 캡슐의 전자현미경 사진 및 IR 스펙트럼>
2. Evaluation of structural integrity of SUS304 steel using Pb-Sb alloy
- Pb-Sb 합금을 이용한 SUS304 강의 고온 좌굴 하중 방법 개발
- 고온 좌굴 실험에서 크리프의 영향 정량 분석
<압축 하중에 의한 좌굴 실험 및 시뮬레이션>
3. Enhancing thermal properties of molten slat nanofluids
- 나노유체 합성을 통한 용융염의 비열 향상
- 나노유체 비열 향상 모델 개발
<용융염 나노유체 비열 측정 결과 및 전자현미경 사진>
[수상 내역]
우수논문상 (2020 기계학회 신뢰성부문 춘계학술대회)
[주요 연구 실적]
1 | J. Lee and B. Jo, 2021, Surfactant-free synthesis protocol of robust and sustainable molten salt microcapsules for solar thermal energy storage, Solar Energy Materials & Solar Cells, Vol. 222, 110954 |
2 | D. Lee and B. Jo, 2021, Thermal energy storage characteristics of binary molten salt nanofluids: Specific heat and latent heat, International Journal of Energy Research (Accepted) |
3 | J. Lee and B. Jo, 2020, Surfactant-free microencapsulation of sodium nitrate for high temperature thermal energy storage, Materials Letters, Vol. 268, 127576 |
4 | B. Jo, N. Erkan and K. Okamoto, 2020, Richardson number criteria for direct-contact-condensation-induced thermal stratification using visualization, Progress in Nuclear Energy, Vol. 118, 103095 |
5 | B. Jo, K. Okamoto and N. Kasahara, 2019, Creep buckling of 304 stainless-steel tubes subjected to external pressure for nuclear power plant applications, Metals, Vol. 9, pp. 536 |
6 | B. Jo, N. Kasahara and K. Okamoto, 2018, Buckling of cylindrical stainless-steel tubes subjected to external pressure at extremely high temperatures, Engineering and Failure Analysis, Vol. 92, pp. 61-70. |
7 | B. Jo and D. Banerjee, 2017, Molecular dynamics study on interfacial thermal resistance between organic nanoparticles and alkali molten salt mixtures, International Journal of Multiscale Computational Engineering, Vol. 15 (3), pp. 199-217. |
8 | B. Jo, N. Erkan, S. Takahashi, D. Song, W. Sagawa and K. Okamoto, 2016, Thermal stratification in a scaled-down suppression pool of Fukushima Daiichi nuclear power plant, Nuclear Engineering and Design, Vol. 305, pp. 39-50. |
9 | B. Jo and D. Banerjee, 2015, Effect of solvent on specific heat capacity enhancement of binary molten salt-based carbon nanotube nanomaterials for thermal energy storage, International Journal of Thermal Science, Vol. 98, pp. 219-227. |
10 | B. Jo and D. Banerjee, 2014, Enhanced specific heat capacity of molten salt-based nanomaterials: effects of nanoparticle dispersion and solvent material, Acta Materialia, Vol. 75, pp. 80-91. |