You are able to monitor the pressures in both your line and casing. You are able to control the proportional valve, activate a series of relays to turn on and off the delivery pump, and control a driver Hyde all at the same time. The fact that this kind of operation is predicated on the real-time liquid level of the target that you want to maintain in order to produce oil from the well is really fascinating. This level serves as the foundation for a variety of other analyses and determinations. Consider the question of when my progressive cavity pumps parts will stop working. You should be able to tell within a few minutes if you have successfully separated the drill pipe. You are able to determine, from a remote location, whether or not there are holes in the oil pipe, and the frequency conversion device that is controlled by the intelligent pump will collect the clearance data.
You can use these frequency conversion devices and the intelligent if you want a Wegg device or an Allen Bradley, or if you have some old clock gates in the warehouse. This is because the intelligent progressive cavity metering pump is the main controller of all frequency conversion devices, and it is these frequency conversion devices that control the intelligent pump. In addition to this, it gathers information from the frequency conversion devices themselves, such as the line voltage, motor voltage, current intensity, and torque. These are extremely vital pieces of information. In addition to that, it provides a definition for the fault code that the frequency converter will typically provide to you.
As an illustration, an old clock door might provide you with an error code of 36. It is imperative that we discover what this information means. Error code 36 is transmitted to the smart pump, which then notifies the user that there is a ground fault in the motor. Imagine what it was like when we were in the past. We were at the location of the well. After determining that the oil well was not producing any oil, we attempted to open it up.
It is not going to open. When we called the electrician, he came, he did some tests, he pulled his ammeter out, and he told you, "Oh, you have a grounded motor, you need a new motor." After that, you ordered a new motor, and then you finally went out to repair one. In this scenario, if you receive the message that there is a problem with the motor's grounding, you do not have to call an electrician to fix the problem. You can send both it and the motor in his pickup truck in at the same time for proper repair at the same time during the same visit. In addition to that, it was mentioned that the intelligent pump is compatible with any type of sensor array. These sensors can be configured to a number of different conditions.
You have the option of using them to indicate warnings and fault conditions. After that, it will make a record of any events that take place and append a timestamp to each one. The fault will be fixed when these events are cleared or the problem is repaired; at that point, the fault will be cleared, and the device will tell you the time of occurrence accurately. More importantly, this kind of precise progressive cavity metering pumps control is not only so for screw pump, but it is actually a platform for creating a digital oilfield on any site, including the green space where the SCADA network has not yet been established, as the intelligent pump is SCADA and the processor I just described. This is because the intelligent pump is SCADA and the intelligent progressing cavity pump parts is the intelligent pump. As a result, I'd like to tell you a story about green land that involves a national oil company. This company examined the intelligent pump in comparison to other types of systems.
In this part, I will also share some concluding remarks with you. In regards to the tale of green land, the oil company that I refer to is simply an oil and gas company based in South America. They have requested that we provide an automated system. After removing the previous system and installing ours in their Tambul, whole oil field, and the Kolkata oil field in Suriname, they determined that the incremental productivity growth was between 18% and 58%. They want to compare it to all of the other systems that have been installed in the past.
