MiniRig: Load Cells Array

Research output: ThesisMaster's Thesis

Standard

MiniRig: Load Cells Array. / Aoun, Hassan.
2023.

Research output: ThesisMaster's Thesis

Harvard

Aoun, H 2023, 'MiniRig: Load Cells Array', Dipl.-Ing., Montanuniversitaet Leoben (000). https://doi.org/10.34901/mul.pub.2023.151

APA

Aoun, H. (2023). MiniRig: Load Cells Array. [Master's Thesis, Montanuniversitaet Leoben (000)]. https://doi.org/10.34901/mul.pub.2023.151

Vancouver

Aoun H. MiniRig: Load Cells Array. 2023. doi: 10.34901/mul.pub.2023.151

Bibtex - Download

@mastersthesis{bd98130f4c704f2c8335a8e36b649bdc,
title = "MiniRig: Load Cells Array",
abstract = "A laboratory-scale drilling rig, MiniRig, is being developed by the Chair of Drilling and Completion at DPE Leoben, represents a major step forward in the field of drilling technology. The rig is designed to provide a unique and innovative solution for drilling operations, with a sprocket-and-chain hoisting system that is different from the conventional hoisting systems used in other drilling rigs. The key aspect of the rig's operation is the hook load, which is determined by the readings from the four load cells that are attached to the traveling block, where two load cells are attached on each of the two chains. To improve the accuracy of the load cell readings, the configuration of the load cells was carefully manipulated through Automation Studio. By applying a strain gauge factor with a higher resolution, the calculations of the digital values of the load cells were much more precise, allowing for a more accurate calculation of the actual mass suspended on each load cell and the hook load. The resulting calculation of the hook load is affected by the friction forces that are encountered by the traveling block as it moves along the vertical shafts. In order to gain a deeper understanding of the MiniRig's traveling block and hook load dynamics, a series of experiments were conducted. These experiments included a study of the block position, incrementally adding weigh, movement of the traveling block, WOB (weight on bit) application, and examination of the effect of tension in the load cell connections. The results showed that the position and direction of the block affect the hook load readings, and the friction of the block on the vertical shafts can reduce the weight measurements. Furthermore, the tension in the load cell connections has a noticeable impact on the readings. With the outcomes of these experiments, the MiniRig has now reached an operational state, with a thorough understanding of its traveling block and hook load dynamics. This information will be valuable in performing a drill off test, which requires the activation of the drill motor and the connection of the circulation system. Additionally, the MiniRig can be utilized for educational purposes and, in the future, will be fully automated with the development of a theoretical operating envelope. With its unique design and innovative features, the MiniRig is poised to play an important role in the field of drilling and completion, providing a new and effective solution for drilling operations.",
keywords = "Lab-scale drilling rigs, MiniRig, Sprocket-and-chain system Hook load, WOB, Traveling Block, Bohrger{\"a}t im Laborma{\ss}stab, MiniRig, Kettenrad- und Kettenhebesystem, Hakenlast, WOB, Traveling Block",
author = "Hassan Aoun",
note = "no embargo",
year = "2023",
doi = "10.34901/mul.pub.2023.151",
language = "English",
school = "Montanuniversitaet Leoben (000)",

}

RIS (suitable for import to EndNote) - Download

TY - THES

T1 - MiniRig: Load Cells Array

AU - Aoun, Hassan

N1 - no embargo

PY - 2023

Y1 - 2023

N2 - A laboratory-scale drilling rig, MiniRig, is being developed by the Chair of Drilling and Completion at DPE Leoben, represents a major step forward in the field of drilling technology. The rig is designed to provide a unique and innovative solution for drilling operations, with a sprocket-and-chain hoisting system that is different from the conventional hoisting systems used in other drilling rigs. The key aspect of the rig's operation is the hook load, which is determined by the readings from the four load cells that are attached to the traveling block, where two load cells are attached on each of the two chains. To improve the accuracy of the load cell readings, the configuration of the load cells was carefully manipulated through Automation Studio. By applying a strain gauge factor with a higher resolution, the calculations of the digital values of the load cells were much more precise, allowing for a more accurate calculation of the actual mass suspended on each load cell and the hook load. The resulting calculation of the hook load is affected by the friction forces that are encountered by the traveling block as it moves along the vertical shafts. In order to gain a deeper understanding of the MiniRig's traveling block and hook load dynamics, a series of experiments were conducted. These experiments included a study of the block position, incrementally adding weigh, movement of the traveling block, WOB (weight on bit) application, and examination of the effect of tension in the load cell connections. The results showed that the position and direction of the block affect the hook load readings, and the friction of the block on the vertical shafts can reduce the weight measurements. Furthermore, the tension in the load cell connections has a noticeable impact on the readings. With the outcomes of these experiments, the MiniRig has now reached an operational state, with a thorough understanding of its traveling block and hook load dynamics. This information will be valuable in performing a drill off test, which requires the activation of the drill motor and the connection of the circulation system. Additionally, the MiniRig can be utilized for educational purposes and, in the future, will be fully automated with the development of a theoretical operating envelope. With its unique design and innovative features, the MiniRig is poised to play an important role in the field of drilling and completion, providing a new and effective solution for drilling operations.

AB - A laboratory-scale drilling rig, MiniRig, is being developed by the Chair of Drilling and Completion at DPE Leoben, represents a major step forward in the field of drilling technology. The rig is designed to provide a unique and innovative solution for drilling operations, with a sprocket-and-chain hoisting system that is different from the conventional hoisting systems used in other drilling rigs. The key aspect of the rig's operation is the hook load, which is determined by the readings from the four load cells that are attached to the traveling block, where two load cells are attached on each of the two chains. To improve the accuracy of the load cell readings, the configuration of the load cells was carefully manipulated through Automation Studio. By applying a strain gauge factor with a higher resolution, the calculations of the digital values of the load cells were much more precise, allowing for a more accurate calculation of the actual mass suspended on each load cell and the hook load. The resulting calculation of the hook load is affected by the friction forces that are encountered by the traveling block as it moves along the vertical shafts. In order to gain a deeper understanding of the MiniRig's traveling block and hook load dynamics, a series of experiments were conducted. These experiments included a study of the block position, incrementally adding weigh, movement of the traveling block, WOB (weight on bit) application, and examination of the effect of tension in the load cell connections. The results showed that the position and direction of the block affect the hook load readings, and the friction of the block on the vertical shafts can reduce the weight measurements. Furthermore, the tension in the load cell connections has a noticeable impact on the readings. With the outcomes of these experiments, the MiniRig has now reached an operational state, with a thorough understanding of its traveling block and hook load dynamics. This information will be valuable in performing a drill off test, which requires the activation of the drill motor and the connection of the circulation system. Additionally, the MiniRig can be utilized for educational purposes and, in the future, will be fully automated with the development of a theoretical operating envelope. With its unique design and innovative features, the MiniRig is poised to play an important role in the field of drilling and completion, providing a new and effective solution for drilling operations.

KW - Lab-scale drilling rigs

KW - MiniRig

KW - Sprocket-and-chain system Hook load

KW - WOB

KW - Traveling Block

KW - Bohrgerät im Labormaßstab

KW - MiniRig

KW - Kettenrad- und Kettenhebesystem

KW - Hakenlast

KW - WOB

KW - Traveling Block

U2 - 10.34901/mul.pub.2023.151

DO - 10.34901/mul.pub.2023.151

M3 - Master's Thesis

ER -