Analysis of Human – Machine Interface for Drilling Rig Personnel to enable Remote Drilling Operations Support
Publikationen: Thesis / Studienabschlussarbeiten und Habilitationsschriften › Masterarbeit
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2015.
Publikationen: Thesis / Studienabschlussarbeiten und Habilitationsschriften › Masterarbeit
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TY - THES
T1 - Analysis of Human – Machine Interface for Drilling Rig Personnel to enable Remote Drilling Operations Support
AU - Weichselbaum, Stephan
N1 - embargoed until 27-02-2020
PY - 2015
Y1 - 2015
N2 - A new visualization of real time drilling data to simplify detection of early drilling problems can result in a future developed driller rig interface. Through the development of new drilling technologies, equipment and monitoring systems, the requirements on drilling personnel increased rapidly. The ability to detect early drilling problems from the driller’s cabin, by observing trends of real time drilling data, is limited considering that the driller doesn’t have the time to follow single parameters over a longer period of time during rig operations. Various companies already provide early drilling problem detection software, but without taking a human-machine interface located in the driller’s cabin into account. A display located in the driller’s cabin, showing trend changes of main drilling parameters over a longer period of time is missing, but exactly this trend analysis of key drilling parameters are cause to detect drilling problems at the start of occurrence to enable earlier counter measures. A visualization is introduced called the Driller’s Display to present actual versus simulated key drilling parameters in addition to fingerprinting charts to observe three main rig operations. The simulation models and fingerprinting charts are newly developed. Various testing and evaluation phases have shown promising results. Through the reduction of displaying only the core parameters with trend analysis, the driller is able to detect drilling problems in an early stage with the advantage of counteracting as early as possible by adjusting drilling equipment directly controlled by the driller.
AB - A new visualization of real time drilling data to simplify detection of early drilling problems can result in a future developed driller rig interface. Through the development of new drilling technologies, equipment and monitoring systems, the requirements on drilling personnel increased rapidly. The ability to detect early drilling problems from the driller’s cabin, by observing trends of real time drilling data, is limited considering that the driller doesn’t have the time to follow single parameters over a longer period of time during rig operations. Various companies already provide early drilling problem detection software, but without taking a human-machine interface located in the driller’s cabin into account. A display located in the driller’s cabin, showing trend changes of main drilling parameters over a longer period of time is missing, but exactly this trend analysis of key drilling parameters are cause to detect drilling problems at the start of occurrence to enable earlier counter measures. A visualization is introduced called the Driller’s Display to present actual versus simulated key drilling parameters in addition to fingerprinting charts to observe three main rig operations. The simulation models and fingerprinting charts are newly developed. Various testing and evaluation phases have shown promising results. Through the reduction of displaying only the core parameters with trend analysis, the driller is able to detect drilling problems in an early stage with the advantage of counteracting as early as possible by adjusting drilling equipment directly controlled by the driller.
KW - early drilling problem detection
KW - driller rig interface
KW - human machine interface
KW - key drilling parameters
KW - Driller's Display
KW - fingerprinting charts
KW - Artifical neuronal network simulation
KW - Trend analysis
KW - frühzeitige Bohrproblem Analyse
KW - Mensch Maschine Schnittstelle
KW - Kranfahrer Bohranlage Schnittstelle
KW - Trendanalyse
KW - wichtige Bohrparameter
KW - Driller's Display
KW - Fingerprinting Diagramme
KW - Künstlich neuronales Netzwerk Simulation
M3 - Master's Thesis
ER -