Non-Explosion Proof Type Pyrometer
This classification includes pyrometers designed for blast furnace have not equipped with explosion proof instrument. If user need explosion proof, we could add explosion proof device.
Conditions in furnace are always tough alone with high temperature and high pressure. Limited to the requirements of operation environment and instrument`s structure, thermocouple thermometry would result in inaccurate measurement and lag reaction when works in harsh condition such as frequently temperature changes, large pressure fluctuations and event in vibration.
Since a thermocouple works at the high temperature ( usually 1200 ℃ ~ 1300 ℃) in furnace for long term, the thermocouple junction box also works at high temperature between 100 ℃ to 120 ℃, which will dramatically reduce instrument`s service life to a range from few weeks to few months. It will increases use-cost and maintenance workload.
In order to overcome above shortcomings, our company has designed and produced a serials of specialized infrared temperature measure device to ensure our infrared temperature measuring system works reliably in complex environment.
Non-Explosion Proof Type Pyrometer,Non Explosion Proof Pyrometer,Furnace Use Pyrometer,Pyrometer For Industry Stove Changzhou Sijie Optoelectronics Technology Co.,Ltd. , https://www.sjinfrared.com
The PH value of the soil in-situ PH recorder was used to measure the pH value of the soil in the tea garden, and then the manganese content of the tea leaves produced at different pH values ​​was found to be significantly negatively correlated with the soil pH. The effect of soil pH on the manganese content of the tea is achieved by controlling the active manganese content that can be absorbed and utilized by the tea in the soil.
The change rule of manganese content in leaves of different leaf ages was old leaves>leaf leaves>fresh leaves, showing that tea leaves were enriched in manganese enrichment with increasing leaf age. There was a significant negative correlation between the manganese content of tea leaves at the same leaf age and the extractable manganese content of 0.02 mol/L CaCh in soil.
The analysis results of the soil in situ PH recorder showed that controlling the soil pH value can regulate the manganese content in the tea. There was a significant positive correlation between manganese content in tea leaves and 0.02 mol/L CaC1 in soil and extractable manganese. Using soil NaCl 0.02 mo LCaC1, the amount of extractable manganese can predict the manganese content of the tea. The manganese extractable manganese LCaC in 0.02 mo soil can be used as the available manganese in the tea garden soil.
Tea is one of the favorite beverages in China, but the manganese content of tea produced in different regions is very different. This is inextricably linked to the pH of the soil. The investigation of manganese content in tea leaves and soil pH in 13 tea gardens in China's major tea producing areas explored the following aspects: (1) relationship between tea manganese content and leaf age; (2) tea manganese content and soil pH and extractable manganese Relationship; (3) Relationship between soil pH and extractable manganese. The pH in the soil was determined using an in situ soil pH recorder.