Ø 国家重点研发计划课题，相变储热网络设计理论与材料筛选评价体系，2024YFB3813601；2024.12-2027.11，167万，(参与)

Ø 国家自然科学基金重点项目，中低温条件下光热协同催化降解高温室效应氢氟烃类制冷剂的研究，52236003；2023.1-2027.12，269万 (参与)

Ø 国家自然科学基金面上项目，氢氟烃类制冷剂超临界热催化降解研究，52176011; 2022.1-2025.12，58万，（参与）

Ø 新疆维吾尔自治区自然科学基金，面上项目，高端机械密封装置非线性动力学行为耦合建模与分析（2021D01C045）2021.06-2024-05，7万，（参与）

Ø 横向，自选课题, 国网新疆克州供电公司10千伏阿松线022号公变加装STATCOM电能质量综合治理装置, 2020700005, 2020.10-2021.02, 42万（参与）

(1) Wusiman Kuerbanjiang, Wang T H, Shi L, et al. Thermal stability study of sugar alcohol phase change materials by multi-indicators under inert gas protection conditions[J]. Solar Energy Materials and Solar Cells, 2025, 281:113318. (SCI, WOS:001365845500001, EI: 20244817418566)

(2) Wusiman Kuerbanjiang, Wang T H, Shi L, et al. A novel evaluation method for thermal stability of erythritol as phase change materials[J]. Thermal Science and Engineering Progress, 2025, 59:103303. (SCI, WOS:001431596800001， EI: 20250517773159)

(3) Wusiman Kuerbanjiang, Dai X Y, Shi L. Enhanced comprehensive thermal performance of ternary composite phase change materials with graphite powder hybridizing expanded graphite/erythritol[J]. International Journal of Green Energy, 2025,22(11):2340-2353. (SCI, WOS: 001412973200001, EI: 20250617812754).

(4) Wusiman Kuerbanjiang, Dai X Y, Shi L. Evaluation the influence of oxidation reactions on the decay of melting enthalpy in erythritol used as a phase change material[J]. International Journal of Green Energy, 2025, 22(15): 3448-3459. (SCI, WOS:001509852100001, EI: 20252718715522).

(5) 库尔班江∙乌丝曼, 王天浩, 史琳, 等. 典型糖醇类相变材料考虑加热时间和过热温度的结晶特性研究[J].材料导报, 2025,39(13):295-301.（EI:20253018835605）

(6) 库尔班江∙乌丝曼, 王天浩, 戴晓业, 史琳. 赤藓糖醇相变材料的热稳定性评估. 工程热物理学报，2024,45(08):2223-2229（EI:20243416919410）

(7) 库尔班江·乌丝曼，戴晓业，史琳. 相变材料的特点及热物性分析，东北大学学报(自然科学版)，2023, 44(04):510-516 (EI: 20232114121338)

(8) 库尔班江·乌丝曼,戴晓业,史琳. 相变材料对储热系统换热速率的影响，东北大学学报(自然科学版)，2023，44(09):1292-1297+1327 (EI: 20234214903567).

(9) 库尔班江·乌丝曼, 史琳, 戴晓业. 纳米Al₂O₃/膨胀石墨/赤藓糖醇三元复合相变材料的综合性能评价[J].工程热物理学报, 2025, 46(06):1729-1737.（EI:20252418614345）

(10) 库尔班江·乌丝曼,戴晓业,史琳. 糖醇类相变材料热稳定性研究进展，功能材料，2023, 54(07):7042-7049+7114.（CSCD:7548971）

(11) Kuerbanjiang Wusiman, Zhaolun Zhou. Investigation of Shell and Tube Heat Exchanger with Disc-and-Doughnut Baffles. Open Access Library Journal, 2020, 07(9):1-10.

(12) Kuerbanjiang Wusiman, Hyomin Jeong, Kelimu Tulugan, et al. Thermal Performance of Multi-walled carbon nanotubes (MWCNTs) in aqueous suspensions with surfactants SDBS and SDS,International Communications in Heat and Mass Transfer, 2013, 41: 28-33. (SCI, WOS:000315066200005, EI: 20130415928893)

(13) Kuerbanjiang Wusiman, Kelimu Tulugan, Md. J. Nine, et al. The experimental study of convective heat transfer of Cu/water nanofluid in different flow regimes, Nanoscience and Nanotechnology Letters, 2013, 5(3): 321-328. (SCI, WOS:000317250700001, EI: 20132116344576)

(14) Kuerbanjiang Wusiman, Han-shik Chung, J. Nine Md, et al. Heat transfer characteristics of nanofluid through circular tube, Journal of central south university, 2013, 20(1): 142-148.(SCI, WOS:000313367900019, EI: 20132016322998)

(15) Chung Han-shik, Wusiman K, Kim Seong-soo, et al. Liquid film falling behaviour on horizontal circular cylinder, Journal of central south university, 2012, 19: 1355-1358. (SCI, WOS:000303479700026, EI: 20122615184669)

(16) Afrianto Handry; Bayara N, Kuerbanjiang W, et al. Heat Transfer Characteristic Investigation of Nanofluids Laminar Forced Convection Using Numerical Method, Journal of Computational and Theoretical Nanoscience, 2013, 10(9): 1956-1962. (SCI, WOS: 000323236000009, EI: 20134416931323)

(17) Hafizur Rehman, Hyomin Jeong, Kuerbanjiang W, et al. Dispersion Optimization and Thermal Conductivity Measurement of Low Concentration Alumina Nanofluids, Nanoscience and Nanotechnology Letters, 2012, 4: 676-680. (SCI, WOS:000308379700002, EI: 20123315341750)