对大罐黄酒发酵工艺过程中物位测量技术进行了研究，采用射频导纳技术实现在导电介质中物位测量技术的实现，分别针对前后酵发酵过程中物料的不同属性特征，进行数据模型的算法设计，并对挂料问题进行了分析与改进，以保证发酵过程中物料物位的测量精准度，提高黄酒品质。针对物位测量技术设计一套物位控制系统，对物位测量系统硬件部分的电源电路进行了设计，提出了单片机PWM输出时钟与取样积分电路两种方案，进一步提高了物位测量技术的准确率；并提出了前后酵发酵导纳数学模型，并采用visual studio 2015设计了上位机监控系统，可以在线实时查看发酵罐内的物位；采用RFID技术实现发酵罐之间、发酵罐与监控系统之间的无线通信，不仅提高了数据传输的可靠性，也填补了国内在测量黄酒发酵物位测量技术方面的空白。

The material level measurement technology in the fermentation process of big pot rice wine was studied, using radio frequency admittance technology to achieve the measurement of material level, and the hanging problem was analyzed and improved to ensure the accuracy of fermentation process and to improve the quality of rice wine. The design of the material level measurement system, the accurate clock setting system scheme, and the sampling integral circuit and measurement circuit were performed to further improve the accuracy of level measurement technology. This technology fills the gap in measurement of the level measurement technology of rice wine fermentation. For level measurement technology to design a set of material level control system, the hardware part of the material level measuring system power circuit was designed by the microcontroller PWM output clock and sampling integral circuit two options, to further improve the accuracy of material level measuring technology. The mathematical model of fermentative admittance before and after the fermentation was proposed, and the monitoring system of upper computer was designed using visual studio 2015, so that the content in fermentation tank could be viewed online in real time. The linkage between fermentation tank was realized by using RFID technology and wireless communication between the monitoring system, not only improved the reliability of data transmission, also to filled the domestic blank in yellow wine yeast a measurement technology.

国家自然科学基金项目（21276111）；江苏省前瞻性联合研究项目（BY2016022-12）