团队负责人:张凯,中国计量大学hg8868皇冠官方登录平台副院长,博士,教授、老板电器-中国计量大学“大吸力油烟机联合实验室”负责人,浙江省燃气云重点企业研究院副理事长、技术委员会副主任,浙江省颗粒学会-颗粒物流量计量委员主任,浙江省发明协会质量技术专业委员会副主任,浙江省151人才,浙江省钱江人才,澳大利亚皇家墨尔本大学高级访问学者。
研究方向:超声波流量计量装置研制;微流控芯片、超声换能器定制;智慧水务、燃气物联网平台开发。
团队核心成员:
聂德明
教授
颗粒悬浮流,智能化颗粒,自推进游动器件
徐明
副教授
振动工程
唐波
产业教授、高级工程师
智慧水务、智能传感技术、AI算法
刘通
讲师
光电检测,人工智能算法
颜幸尧
测控技术
赵洁
助理研究员
二氧化碳封存、水合物资源开发
王君竹
陈林娅
多相流
团队主持的主要科技项目:
(1) 国家重点研发计划课题:基于声压扫描的声功率法验证及实验技术;
(2) 国家自然科学基金项目:微流体中纳米颗粒的非线性电动操控机理和实验研究;
(3) 国家自然科学基金项目:自驱动颗粒多相流体动力学若干问题的研究;
(4) 浙江省经信委专项:基于物联网的燃气管理系统及智能化终端研发及产业化;
(5) 浙江省重点企业研究院重大专项:基于CFD结构优化设计的高精度超声波气体流量计研制。
团队主要横向合作:50余项。
(1) 通风率标准棒及通风度仪器精度研究;
(2) 燃气表压损与计量误差特性研究;
(3) 面向燃气云的智能通用SoC平台的研制;
(4) 热电联产智慧运行调度和优化系统研究等项目合作。
(5) 新型无叶锥形风塔的性能测试、仿真与优化设计。
[1] Ming Xu*. Random response of a viscoelastic dielectric elastomer spherical balloon. Probabilistic Engineering Mechanics. 66: 103171.2021
[2] Ming Xu, Bin Wang, Xiaoya Li, Shengxi Zhou, Daniil Yurchenko. Dynamic response mechanism of the galloping energy harvester under fluctuating wind conditions. Mechanical Systems and Signal Processing. 166: 108410.2022
[3] Bin Wang, Jinguo Liu, Bo Tang, Ming Xu*, Yongge Li*. Dynamic performance of the energy harvester with a fractional-order derivative circuit. Journal of Vibration and Control. Doi: 10.1177/10775463211064651
[4] Jinguo Liu, Bo Tang, Ming Xu*. Data-driven statistical nonlinearization technique based on information entropy. Probabilistic Engineering Mechanics. 70: 103376.2022
[5] Yanping Tian, Xinpei Lu, Bin Wang, Bo Tang, Ming Xu*. The influence of the piezoelectric non-conservative effect on the bi-stable vibration energy harvester. Journal of Vibration Engineering & Technologies (Accepted)
[6] Ye Zhang, Jie Zhao(共同一作), et al. Synthesis of methane hydrate at ambient temperature with ultra-rapid formation and high gas storage capacity. Energy & Environmental Science (Top, SCI一区, IF=39.714) , 2022, 15, 5362-5378.
[7] Jie Zhao, Jia-nan Zheng, et al. Formation and production characteristics of methane hydrates from marine sediments in a core holder. Applied Energy (Top, SCI 一区, IF=11.446), 2020, 275: 115393.
[8] Jie Zhao, Jia-nan Zheng, et al. Effects of underlying gas on formation and gas production of methane hydrate in muddy low-permeability cores. Fuel (Top, SCI一区, IF= 8.035), 2022, 309: 122128.
[9] Jie Zhao, Jia-nan Zheng, et al. Gas permeability characteristics of marine sediments with and without methane hydrates in a core holder. Journal of Natural Gas Science and Engineering (SCI二区, IF=5.285), 2020, 76: 103215.
[10] Jie Zhao, Jia-nan Zheng, et al. Dynamic permeability and gas production characteristics of methane hydrate-bearing marine muddy cores: Experimental and modeling study. Fuel (Top, SCI二区, IF=8.035), 2021, 306: 121630.
[11] Jie Zhao, Jia-nan Zheng, et al. Gas production enhancement effect of underlying gas on methane hydrates in marine sediments by depressurization. Fuel (Top, SCI一区, IF=8.035), 2021, 310: 122415.
[12]Junzhu Wang, Shutao Wang*, Fengkai Shang, Yangyang Sun, Shiyu Liu. Missing data recovery combined with Parallel factor analysis model for eliminating Rayleigh scattering in the process of detecting pesticide mixture[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2020, 232:118187. (中科院SCI二区)
[13]Junzhu Wang, Shutao Wang*, Na Liu, Fengkai Shang. A detection method of two carbamate pesticides residues on tomatoes utilizing excitation-emission matrix fluorescence technique[J]. Microchemical Journal, 2021, 164:105920. (中科院SCI二区)
[14]Junzhu Wang, Shutao Wang*, Shiyu Liu, Qi Cheng. Determination of four pesticides in honeysuckle by Echo State Network based on excitation-emission matrix fluorescence spectroscopy[J]. Journal of Food Measurement and Characterization, 2021, 16(1), PP431-439.(中科院SCI三区)
[15]Shutao Wang, Junzhu Wang*, Fengkai Shang, Yuntian Wang, Qi Cheng, Na Liu. A GA-BP method of detecting carbamate pesticide mixture based on three-dimensional fluorescence spectroscopy[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2020, 224: 117396. (中科院SCI二区)
[16] 王玉田, 王君竹*, 商凤凯, 边旭. 基于三维荧光光谱的克百威农药含量的检测方法[J]. 光谱学与光谱分析, 2018, 38(9): 2843-2846. (SCI北大中文核心)
[17]基于吸收光谱与荧光的环境污染物检测技术,中国仪器仪表学会科技进步二等奖,2020。王君竹
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