Abstract
The concentration of a chosen ionic component of a drilling mud is determined from the potential difference between an ion selective electrode, selective to the component and a reference electrode, the reference electrode being connected to the mud by a liquid junction through which reference electrolyte flows from the electrode to the mud. The system avoids errors due to undesirable interactions between the mud and the reference electrode materials. (author).
Citation Formats
Jasinski, R, Fletcher, P, and Vercaemer, C.
Monitoring drilling mud composition using flowing liquid junction electrodes.
United Kingdom: N. p.,
1990.
Web.
Jasinski, R, Fletcher, P, & Vercaemer, C.
Monitoring drilling mud composition using flowing liquid junction electrodes.
United Kingdom.
Jasinski, R, Fletcher, P, and Vercaemer, C.
1990.
"Monitoring drilling mud composition using flowing liquid junction electrodes."
United Kingdom.
@misc{etde_6019230,
title = {Monitoring drilling mud composition using flowing liquid junction electrodes}
author = {Jasinski, R, Fletcher, P, and Vercaemer, C}
abstractNote = {The concentration of a chosen ionic component of a drilling mud is determined from the potential difference between an ion selective electrode, selective to the component and a reference electrode, the reference electrode being connected to the mud by a liquid junction through which reference electrolyte flows from the electrode to the mud. The system avoids errors due to undesirable interactions between the mud and the reference electrode materials. (author).}
place = {United Kingdom}
year = {1990}
month = {Jun}
}
title = {Monitoring drilling mud composition using flowing liquid junction electrodes}
author = {Jasinski, R, Fletcher, P, and Vercaemer, C}
abstractNote = {The concentration of a chosen ionic component of a drilling mud is determined from the potential difference between an ion selective electrode, selective to the component and a reference electrode, the reference electrode being connected to the mud by a liquid junction through which reference electrolyte flows from the electrode to the mud. The system avoids errors due to undesirable interactions between the mud and the reference electrode materials. (author).}
place = {United Kingdom}
year = {1990}
month = {Jun}
}