矿浆在线分析仪器共性技术研究
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摘要
矿浆在线分析仪器是在线分析技术与仪器化技术相结合的产物,选矿领域通常包括矿浆品位、粒度、浓度及酸碱度等工艺参数检测,传统的仪器化开发过程具有软硬件专属定制化的特点,基于"共性技术组件化"的思路,将矿浆在线分析关键的共性设计加以提炼及论证。
Online slurry analysis instrument is the product of combination of online analysis and instrument technology.The field of mineral processing usually includes the detection of slurry grade,particle size,solid and pH value.The traditional instrumentation development process has the characteristics of software and hardware customization.Based on the idea of"common technology modularization",the key common design of online slurry analysis is summarized and demonstrated.
Online slurry analysis instrument is the product of combination of online analysis and instrument technology.The field of mineral processing usually includes the detection of slurry grade,particle size,solid and pH value.The traditional instrumentation development process has the characteristics of software and hardware customization.Based on the idea of"common technology modularization",the key common design of online slurry analysis is summarized and demonstrated.
引文
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[10]白伟.磨矿分级控制系统的开发与应用[J].自动化应用,2010(12):8-9.BAI Wei.Development and application of the grinding-classification control system[J].Automation Application,2010(12):8-9.
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[12]赖红,何岭松.动态可重构虚拟仪器技术[J].仪表技术与传感器,2012(2):25-27.LAI Hong,HE Lingsong.Research on dynamic reconfiguration virtual instrumentation technology[J].Instrument Technique and Sensor,2012(2):25-27.
[2]李杰,赵建军,周俊武.矿浆在线品位分析中多模型的研究与应用[C]∥中国计量协会冶金分会2017年会论文集,2017.
[3]赵海利,赵建军,周成.一种载流式称重法浓度计的设计[J].中国矿业,2016,25(S1):473-475.ZHAO Haili,ZHAO Jianjun,ZHOU Cheng.Design of an online weighting method concentration meter[J].China Mining Magazine,2016,25(S1):473-475.
[4]牟翔,项安,张乐,等.基于规则的智能仪器故障诊断专家系统[J].仪表技术与传感器,2012(12):106-108,112.MOU Xiang,XIANG An,ZHANG Le,et al.Rule-based fault diagnosis expert system of intelligent instruments[J].Instrument Technique and Sensor,2012(12):106-108,112.
[5]欧伟明.基于FPGA电路重构技术的电子系统设计[J].仪表技术与传感器,2006(4):39-41.OU Weiming.Electronic system design based on technology of FPGA circuit reconfiguration[J].Instrument Technique and Sensor,2006(4):39-41.
[6]孙振伟.嵌入式智能仪器仪表平台的研究与设计[J].机电信息,2009(24):67-68.SUN Zhenwei.Research and design of embedded intelligent instrument platform[J].Mechanical and Electrical Information,2009(24):67-68.
[7]李鹏程,赵建军,赵宇,等.BOXA品位分析仪管理站软件开发[J].有色金属工程,2014,4(5):72-75.LI Pengcheng,ZHAO Jianjun,ZHAO Yu,et al.Software development of BOXA grade analyzer management station[J].Nonferrous Metals Engineering,2014,4(5):72-75.
[8]周成,赵建军,李传伟,等.粒度浓度在线分析仪浓度测量模块的设计应用[J].有色冶金设计与研究,2016,37(3):15-18.ZHOU Cheng,ZHAO Jianjun,LI Chuanwei,et al.Design and application of concentration measurement module of particle size and concentration on-line analyzer[J].Nonferrous Metals Engineering&Research,2016,37(3):15-18.
[9]赵宇,赵建军.敏捷开发方法在选冶仪表软件开发中的应用[J].铜业工程,2016(4):75-78.ZHAO YU,ZHAO Jianjun.Application of agile process implementation in the mineral processing and smelting instrument software development[J].Copper Engineering,2016(4):75-78.
[10]白伟.磨矿分级控制系统的开发与应用[J].自动化应用,2010(12):8-9.BAI Wei.Development and application of the grinding-classification control system[J].Automation Application,2010(12):8-9.
[11]胡晶.工业互联网、工业4.0和“两化”深度融合的比较研究[J].学术交流,2015(1):151-158.HU Jing.A comparative study of industrial internet and industrial 4.0and integration of information technology and industrialization[J].Academic Exchange,2015(1):151-158.
[12]赖红,何岭松.动态可重构虚拟仪器技术[J].仪表技术与传感器,2012(2):25-27.LAI Hong,HE Lingsong.Research on dynamic reconfiguration virtual instrumentation technology[J].Instrument Technique and Sensor,2012(2):25-27.
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