1 |
A superhydrophobic coating harvesting mechanical robustness, passive anti-icing and active de-icing performances Wu BR, Cui X, Jiang HY, Wu N, Peng CY, Hu ZF, Liang XB, Yan YG, Huang J, Li DS Journal of Colloid and Interface Science, 590, 301, 2021 |
2 |
Ultrasonic de-icing of wind turbine blades: Performance comparison of perspective transducers Daniliuk V, Xu YM, Liu RB, He TP, Wang X Renewable Energy, 145, 2005, 2020 |
3 |
Damage accumulation model of ice detach behavior in ultrasonic de-icing technology Wang YB, Xu YM, Su F Renewable Energy, 153, 1396, 2020 |
4 |
An exploratory study on using Slippery-Liquid-Infused-Porous-Surface (SLIPS) for wind turbine icing mitigation Ma LQ, Zhang ZC, Gao LY, Hu H Renewable Energy, 162, 2344, 2020 |
5 |
고속철도차량용 제빙액으로의 적용가능물질에 대한 융빙성능 평가 박경원, 이준구, 이홍기 Applied Chemistry for Engineering, 30(3), 384, 2019 |
6 |
소수성 흄드 실리카를 이용한 결빙 방지 소재 제조 및 특성 연구 조희재, 김유섭, 이형준, 손송호, 정용찬, 한상철, 이수열 Polymer(Korea), 43(6), 946, 2019 |
7 |
A hybrid strategy combining minimized leading-edge electric-heating and superhydro-/ice-phobic surface coating for wind turbine icing mitigation Gao LY, Liu Y, Ma LQ, Hu H Renewable Energy, 140, 943, 2019 |
8 |
An effect assessment and prediction method of ultrasonic de-icing for composite wind turbine blades Wang YB, Xu YM, Lei YY Renewable Energy, 118, 1015, 2018 |
9 |
Recent progress on ultrasonic de-icing technique used for wind power generation, high-voltage transmission line and aircraft Wang ZJ Energy and Buildings, 140, 42, 2017 |
10 |
Impacts of road salts on leaching behavior of lead contaminated soil Wu JJ, Kim H Journal of Hazardous Materials, 324, 291, 2017 |