WO2023096591A1 - Monitoring, recording and notification system for the operating equipment - Google Patents

Abstract

The monitoring, recording and notification system for the operating equipment in the oil and gas production, especially the equipment used in a natural gas separation plant, wherein the monitoring, recording and notification system for the operating equipment comprises a mobile device with a web application designed for mobile device to record measured data of the operating equipment and to send the data via the internet through a firewall to a central management network, a centralized management system that stores and processes the operational equipment data, a display device that displays the data, a domain system that serves as a data repository, allowing data extraction for practical applications, and a responsible person who receives the data sent from the progressive web application server. The purpose is to develop the monitoring, recording and notification system for the operating equipment which enhances and speeds up the operation on the safety basis as well as sending notifications to the involved party whenever the measured values are out of range, while also allows a history tracking.

Description

MONITORING, RECORDING AND NOTIFICATION SYSTEM FOR THE OPERATING EQUIPMENT

Field of the Invention

Engineering related to the monitoring, recording and notification system for the operating equipment

Background of the Invention

It is intended for production process systems of large plants, such as oil refineries, naturalgas plants and petrochemical plants. It is normally necessary to inspect and monitor the various measurement values of the tools and equipment, which is considered to be the main task in enabling the plant to operate with efficiency and safety.

This task would be especially applicable to a gas separation plant, which is regarded as a large production system containing tools and equipment within the plant that are used in testing and evaluating the various functions that take place in such a facility. A gas separation plant embraces a myriad of parameters, such as pump pressure and flow rate measurements, temperature measurements of chemicals and machinery operating equipment. It is normally necessary to depend on humans to enter the area and record all of the measurement values of the tools and equipment on a tabular paper form for the purpose of preparing a summary performance report. Apart from taking up long lengths of time, exhausting resources and troublesome complications in recording and displaying the research results, this process is problematic because of the human error factor, which often leads to faulty table entries. Furthermore, it also makes it difficult to trace back and examine past data.

Thus, the concept of developing efficiency in recording measurement values of tools and equipment materialized so that the various processes could proceed with greater convenience, speed and reliability. In addition, it would be possible to trace back for a historical review and to determine a suitable range of measurable values so that the functionality of the tools and equipment in the system or process can be tested appropriately. The practical use of information technology and design of algorithms suitable for the work being done will continue to play a steadily greater role in daily life and in the various areas of work.

Accordingly, a process, system or method was developed in order to monitor, record and display the status of the equipment to enable it to work together continuously. Similarly, the patent application numbered CN110264024A revealed a method and system for the measurement and control of the refrigeration units, which consisted of refrigeration units, a micro-base station and a network system. An artificial intelligence algorithm was implemented to maximize the suitability of the work with a main objective of energy conservation and work optimization. In addition, it can direct the owner of the ground warehouse to login to the system to view the data on the operating conditions through the network system. Also, the brand model can be inspected by reading the NFC Tag or the RFID Tag, or by scanning the bar code or other two-dimensional codes the test the recorded data in the server. Furthermore, it can recall historical data which the aforementioned Invention can use to measure and control the refrigeration units for both cargo ships and transport trucks, or even for ground-level installed refrigeration rooms. Rather, the algorithms and system components were not compatible with the process or the system, for which there were many complex, difficult equipment details, as in the case of the gas separation plant.

In addition, there is also a patent, numbered CN111766013A, which mentions a system and method of inspecting and monitoring the smart vacuum pressure measurement meter, which comprises housing, alarm meter, function buttons, label identification device, vacuum-measuring unit, display device and processor. Its operational capability is based on the use of the label identification device to scan the identification (ID) tag of the processing equipment, which may contain a bar code or QR code, or may be in the form of an RFID Tag, in order to retrieve the data in that device from the server. Its functionality includes monitoring the operation of the equipment in the process, as the vacuum-measuring unit compiles the real-time vacuum pressure values and evaluates the suitability of those compiled vacuum pressure values by setting the highest and lowest values that would be acceptable. By having stored the data in the server, the unit can then determine whether the measured values are out of the acceptable range or not. It also becomes possible to retrieve the historical data in order to evaluate the work being performed. Nonetheless, the algorithm and system components are still not compatible with the process or the system with its numerous and overly complex equipment details, such as in the gas separation plant, in that very same way.

When considering the patents that had been issued earlier, it could be seen that various codes were being introduced, such as the NFC Tag and QR code, which are two-dimensional codes that function together satisfactorily, since they are codes that can be quickly read and have greater storage capability that the standard bar codes. Also, upon examining the process of tracking and recording measurement values to analyze certain areas that are in need development and improvement, it was found that the earlier inventions had evolved systems and algorithms that were suitable for monitoring systems or processes in which the amount and types of equipment were not troublesome or complicated, or the amount involved was not excessive. Nonetheless, in large-scale production processes, such as in gas separation plants, there are a large number and types of tools and equipment. Furthermore, controlling and monitoring the working status of this equipment is a function that must be carried out thoroughly and carefully, since it is linked to both reliability and safety in the production and delivery of natural gas, which impacts the energy security of the Nation, as well as the need for further development and improvement.

Accordingly, this Invention embraces concepts in the development of innovations that make practical use of reliable information technology in conjunction with the development of algorithms suited to fairly complex systems and processes. It uses the local-area NFC Tag reading system as the main system and uses the QR code scanner system as a backup system. It includes the development of applications that make the tracking and recording of tool and equipment measurement values by the assigned personnel easier than ever before. It also includes receiving data sent by high-speed wireless communication systems used in the sending of data, which, in addition to helping to save time, operates with much greater rapidity. Also, it reduces the amount of human error that otherwise tends to occur. Furthermore, it assists in the recording of real-time data through an approval process for the tools -and-equipment measurement values through an additional layer of approval authority. Its purpose is to ensure the correctness and suitability of the measurement values prior to recording the actual data. It includes a results assessment and display system to enable suitability testing in the performance of work by defining the uppermost and lowermost values that would be considered acceptable. In the event that the measurement values are out of range, exceeding the specified limits, notifications will be sent to the responsible party so that they may immediately conduct an inspection and track the previous work status history of the tools and equipment. In addition, there are safety issues that must be taken into account, since, in some types of production systems, especially in a gas separation plant, there are operating conditions that could cause a fire or an explosion. It is therefore necessary that the equipment being put into use, such as devices for reading, scanning and communication, be explosion-proof.

Summary of the Invention

This Invention involves a monitoring, recording and notification system for the operating equipment in the oil and gas process. It especially applies to equipment intended for operation in a gas separation plant. The monitoring, recording and notification system for the operating equipment comprises a mobile device (1) with a web application designed for a mobile device to record measured data of the operating equipment and to send the measured data of the operating equipment over the internet through a firewall (5) to the central management network (2), which has the function of storing and processing the operational equipment-measurement data. The central management network (2) comprises the progressive web application server (6), a analytical storage server (7), a storage and display server for web application (8) and a relational database management system (MS SQL server) (9). The system even includes a display device (3) which displays the data, a domain system (4) which serves as a data repository allowing the data extraction for practical application, and a responsible party (10) who receives the data sent from the progressive web application server (6).

The focus of this Invention is the development of a monitoring, recording and notification system for the operating equipment. It specifically targets the equipment used in the operations of a gas separation plant that comprises information technology to its operations so that its work activity will be convenient, proceed faster and involve less human error, with safety as an added feature. Furthermore, it helps make it possible to track, record and send notifications on the operational state of the equipment in real time. In those situations when the obtained measured values are out of range, exceeding the acceptable limits that had been set, a notification is sent out to the involved personnel, who will be quickly able to conduct an inspection and track the historical working status of the tools and equipment, as well.

Brief Description of the Drawings

Figure 1 illustrates the main components of the monitoring, recording and notification system for the operating equipment.

Figure 2 illustrates a flow diagram of the monitoring, recording and notification system for the operating equipment.

Figure 3 illustrates a graph sample of the historical data processing and display, a setting of an acceptable upper limit of the measured data of the operating equipment and an acceptable lower limit of the measured data of the operating equipment, followed by a comparison of the actual measured data of the operating equipment with these same acceptable upper and lower limits of the measured data of the operating equipment, in accordance with this invention.

Detailed Description of the Invention

The disclosure is as Figure 1 which displays the main components of the monitoring, recording and notification system for the operating equipment, and Figure 2 which displays a flow diagram of the monitoring, recording and notification system for the operating equipment.

The proposed invention is the monitoring, recording and notification system for the operating equipment, wherein the equipment comprises operational equipment used in the oil and gas process, designed specifically for use in a natural gas separation plant. The monitoring, recording and notification system for the operating equipment comprises the following major components:

A mobile device (1) with a web application designed for mobile devices for the recording measured data of the operating equipment. Once the measured data of the operating equipment have been recorded, the measured data of the operating equipment are then sent over the internet through a firewall (5), which maintains the safety of the networking system, to the central management network (2) for storing and processing.

A central management network (2) which stores and processes the measured data of the operating equipment, consisting mainly of the progressive web application server (6). The measured data of the operating equipment sent from the mobile device (1) will be stored in the progressive web application server (6) so that the operational-equipment measured- values data can be sent from the progressive web application server (6) to the analytical storage server (7) and to the storage and display server for web application (8), whereby:

- The analytical storage server (7) will forward the operational-equipment values data to the domain system (4), which is a data repository enabling the retrieval of data for further use.

- The storage and display server for web application (8) will forward the operational- equipment values data to the MS SQL Server (9) for data processing. The MS SQL Server (9) will then send the data that has passed through the analysis phase back to the storage and display server for web application (8) to send the data over the internet system for display on the display device (3). Otherwise, the storage and display server for web application (8) will send the data that has passed through the analysis phase back for storage in the progressive web application server (6).

Thus, as regards the display device (3), results can be displayed through the web application installed on the display device (3). The user of the web application on the display device (3) chooses from the following roles:

- The system administrator, who is authorized to manage all of the data and whose duties include making corrections to the equipment list, making corrections to the selected area, making modifications to the user permissions, making additional data recordings, making a downward or upward adjustment in the plan of work, making a downward or upward adjustment in the frequency of work, making a downward or upward adjustment in approval authority and extracting data for display purposes; and

- The operator, who is authorized with the status of system operator to perform such functions as making additional data recordings and extracting data for display purposes

Data analysis through the MS SQL Server (9) involves the following actions:

- Analysis and display of statistical historical data through a display in either a tabular or in a graphical format, or combination thereof. Figure 3 illustrates an example of a graphically formatted display of results as it would apply to an evaluation and display of historical data, in accordance with this invention.

- An evaluation and analysis of the data by setting an acceptable upper limit of measured data of the operating equipment and an acceptable lower limit of measured data of the operating equipment. The actual measured data of the operating equipment that were obtained are then compared to both the acceptable upper limit of the measured data of the operating equipment and the acceptable lower limit of the measured data of the operating equipment. Figure 4 shows in graphical format an example of a graphically formatted results display of data being evaluated and displayed, in accordance with this invention.

Accordingly, an evaluation and display of historical data can be shown through the following actions:

- A tabular or graphically formatted data display, or combination thereof, shown through a dashboard or through a web application, or combination thereof; and

- A tabular or graphically formatted data display, or a display in both formats combined, executed by exporting the data in an electronic or soft file format, such as a PDF or a Microsoft (MS) Excel file, and then printing it out.

When the progressive web application server (6) has received the processed data from the storage and display server for web application (8), the progressive web application server (6) shall verify the data and send a notification through the networking system to the responsible party (10).

As regards the sending of a notification over the internet to the responsible party (10) by the progressive web application server (6), notifications shall be sent only in the event where:

-The actual measured data of the operating equipment are higher than the acceptable upper limit of the measured data of the operating equipment, or

- The actual measured data of the operating equipment are lower than the acceptable lower limit of the measured data of the operating equipment.

As may be otherwise stated, if the measured values are not within the specified range, a notification shall be sent to the responsible party (10). This alert may be in the form of a letter sent by any one of electronic mail (e-mail), short message service (SMS) or as an application message, or combination thereof. If, however, the actual measured data of the operating equipment are within the acceptable range, no alert shall be sent whatsoever.

Recording of the measured data of the operating equipment using mobile device (1) comprises the following steps:

A. Enter the web application for mobile device (1) and register with a username and password.

B. Select the operation area in the web application and proceed to the actual operation area. Then, read the NFC Tag or scan the QR code that pertains to the operation area. The web application will then show a list of the equipment installed in the operation area. If, in the case of reading the NFC Tag, the mobile device (1) being used is an explosionproof device.

C. Select the device preferred for recording the measured data of the operating equipment in the web application. When the measured data is known, enter and record the data obtained in the web application accordingly, wherein

- If the measured data of the operating equipment is not out of range, such that it does not exceed the acceptable limits that had been set, the web application in the mobile device (1) will record the data.

- If the measured data of the operating equipment is out of range, such that it exceeds the acceptable limits that had been set, the web application in the mobile device (1) will display the option of either to record or not to record the measured data of the operating equipment. If choosing to confirm saving the data, a box will appear in the web application for filling in the reason for having confirmed saving the data.

D. Send the measured data of the operating equipment from the mobile device (1) to the progressive web application server (6) in the central management network (2).

In accordance with step D, when the measured data of the operating equipment has been sent from the mobile device (1) and stored in the progressive web application server (6), prior to forwarding the measured data of the operating equipment to the analytical storage server (7) and to the storage and display server for web application (8), the progressive web application server

(6) will send the measured data of the operating equipment as a notification for consideration of approval to the responsible party (10), who may then approve the measured data of the operating equipment, wherein the notification for consideration of approval to the responsible party (10) shall be sent in any one or more form of email, SMS, application message in combination thereof, whereby:

- In the event that the measured data of the operating equipment has been approved, the measured data of the operating equipment that has been approved shall be sent back to the progressive web application server (6) for storage and forwarded to the analytical storage server

(7) and to the storage and display server for web application (8).

In the event that the measured data of the operating equipment is not approved, the nonapproval result shall be sent back to the progressive web application server (6) in order to report to the web application for mobile device (1), which reviews the measured data of the operating equipment and accordingly repeats the operation.

As regards this invention, the responsible party (10) can be selected from either: - The responsible party (10) who receives a notification via the internet by the progressive web application server (6), or

- The responsible party (10) who receives a notification for consideration of approval via the internet by the progressive web application server (6) in order to grant approval of the measured data of the operating equipment, or combination thereof.

Best Mode of the Invention

As described in Detailed Description of the Invention.

Claims

9 Claims

1. The monitoring, recording and notification system for the operating equipment comprises a mobile device (1), a central management network (2), a display device (3) and a domain system (4), characterized in that:

The mobile device (1) comprises a web application designed for mobile devices to record the measured data of the operating equipment. When the measured data of the operating equipment has been recorded, the data shall be sent over the internet through a firewall (5), which maintains the safety of the networking system, to the central management network (2) for storing and processing.

The central management network (2) stores and processes the measured data of the operating equipment comprising a progressive web application server (6), wherein the measured data of the operating equipment which was sent from the mobile device (1) will be stored on the progressive web application server (6) to send the measured data of the operating equipment from the progressive web application server (6) to the analytical storage server (7) and to the storage and display server for web application (8), wherein

- The analytical storage server (7) shall send the measured data of the operating equipment to the domain system (4) which serves as a data repository, allowing data extraction for practical applications.

- The storage and display server for web application (8) shall send the measured data of the operating equipment to the relational database management system (MS SQL Server) (9) for data processing. The MS SQL Server will then (9) send the processed data back to the storage and display server for web application (8) for storage to further send the data over the internet to the display device (3) for display. In addition, the storage and display server for web application (8) sends the processed data back to the progressive web application server (6) for storage.

When the progressive web application server (6) has received the processed data from the storage and display server for web application (8), the progressive web application server (6) will then verify the data and send notifications over the internet to the responsible party (10).

2. The monitoring, recording and notification system for the operating equipment according to claim 1, wherein the MS SQL Server (9) processing comprises the followings:

- The historical data processing and display shown either in the form of table or graph or combination thereof.

- The data processing and display, executed by setting an acceptable upper limit of the measured data of the operating equipment and an acceptable lower limit of the measured data of the operating equipment and then making a comparison of the actual measured data of the operating equipment and the acceptable upper and lower limits of the measured data of the operating equipment in the form of graph.

3. The monitoring, recording and notification system for the operating equipment according to either claim 1 or claim 2, wherein the historical data processing and display could be described by the following two actions:

- Displaying the data either in the form of table or graph or combination thereof, either through a dashboard or a web application or combination thereof.

- Displaying the data either in the form of table or graph or combination thereof, by exporting the data in electronic form.

4. The monitoring, recording and notification system for the operating equipment according to any one of claims 1-3, wherein the progressive web application server (6) sends notifications over the internet to the responsible party (10) in the case of:

- The value of the actual measured data of the operating equipment is higher than the acceptable upper limit of the measured data of the operating equipment, or

- The value of the actual measured data of the operating equipment is lower than the acceptable lower limit of the measured data of the operating equipment, wherein notifications are sent either in the form of email, SMS, application message or combination thereof.

5. The monitoring, recording and notification system for the operating equipment according to any one of claims 1-4, wherein the recording of measured data of the operating equipment by the mobile device (1) comprises the following steps:

A. Access the web application for the mobile device (1) and register using a username and a password.

B. Select the operational area in the web application and proceed to the actual operational area. Then, read the NFC tag or scan the QR code for the operational area. The web application will then display a list of the equipment that has been installed in the operational area.

C. Select the device intended to use in recording the operational equipment-measurement data that appears in the web application, and enter and record the value of the operational- equipment in the web application once the equipment measurement value is known.

D. Send the measured data of the operating equipment from the mobile device (1) to the progressive web application server (6) in the central management network (2).

6. The monitoring, recording and notification system for the operating equipment according to any one of claims 1-5, wherein when the measured data of the operating equipment that was sent from 11 the mobile device (1) has been stored in the progressive web application server (6), prior to transferring the measured data of the operating equipment to the analytical storage server (7) and to the storage and display server for web application (8), the progressive web application server (6) shall deliver the measured data of the operating equipment as a notification to the responsible party (10) for consideration and approval, wherein

- In the event that the measured data of the operating equipment has received approval, the measured data of the operating equipment that has been approved shall be sent back to the progressive web application server (6) for storage and the measured data of the operating equipment shall then be sent to the analytical storage server (7) and to the storage and display server for web application (8).

- In the event that the measured data of the operating equipment has not received approval, the disapproval results shall be sent back to the progressive web-application server (6) to report the results to the mobile-device (1) web application for examination of the measured data of the operating equipment and conduct an additional run sequence.

7. The monitoring, recording and notification system for the operating equipment according to any one of claims 1-6, wherein the notification to the responsible party (10) for consideration and approval can be in any one or more form of email, SMS, application message in combination thereof.

8. The monitoring, recording and notification system for the operating equipment according to any one of claims 1-7, wherein the operational equipment is the operational equipment for the oil and gas process.

9. The monitoring, recording and notification system for the operating equipment according to any one of claims 1-8, wherein the operational equipment for the oil and gas process is the operational equipment for natural gas separation plants.