TGS2611性能监测仪在沼气池模型中的应用

2015 International Seminar on Intelligent Technology and Its Applications (ISITIA) Pub Date : 2015-05-20 DOI:10.1109/ISITIA.2015.7219965

Helmy Rahadian, B. Sutopo, I. Soesanti

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引用次数: 7

摘要

气相色谱法测定沼气浓度对于独立生产沼气的人来说成本太高。利用价格较低的TGS2611传感器可以制成一种监测沼气浓度的仪器。仪器需要初始化60秒。TGS2611传感器输出电压随温度变化成正比变化。研究中使用的两种气体传感器的温度常数分别为12.125 mV/°C和12.875 mV/°C。仪器对沼气浓度升高需要10秒响应，对沼气浓度降低需要25秒响应。应用于沼气生成监测的仪器显示，经过34小时的监测，平均温度为34.48℃的沼气池B比平均温度为26.98℃的沼气池A产生更多的沼气。从统计上看，该仪器的相对标准差相对较小，可以说具有较好的精度，平均而言，气体传感器A的相对标准差为1.36%，气体传感器B的相对标准差为1.23%。

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TGS2611 performance as biogas monitoring instrument in digester model application

Gas chromatography for biogas concentration measurement is too expensive for people who made biogas independently. An instrument with cheaper TGS2611 sensor can be made to monitor biogas concentration. The instrument requires initialization for 60 seconds. TGS2611 sensor output voltage has proportionally changed to the temperature change. Two gas sensors used in the research have 12.125 mV/°C and 12.875 mV/°C of temperature constant. The instrument needs 10 seconds to respond the increase of biogas concentration and needs 25 seconds to respond the decrease of biogas concentration. The instrument which applied for biogas formation monitoring shows that higher temperature on digester B with average temperature 34.48°C, produces more biogas compared to digester A with average temperature 26.98°C after 34 hours of monitoring. Statistically, the instrument can be said has good precision due to its relatively small deviation, in average, gas sensor A has 1.36% and gas sensor B has 1.23% of relative standard deviation.

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2015 International Seminar on Intelligent Technology and Its Applications (ISITIA)

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