Esimtech has collaborated on the development of the portable drilling well control simulation training system. It specializes in simulation training for well-controlled systems and has the traits of simple mobility and ideal functionality. Standards set by the IADC and IWCF are met by the system. Training may be more targeted and adaptable when different drilling factors, such as drilling tool structure, well structure, formation characteristics, and equipment parameters, can be easily set.
The software system uses a non-sequential design to replicate different drilling rig operations accurately, bringing the system closer to reality. Create a realistic perception environment using virtual reality technology. Adopt 3D animation that is timed to the operational environment. Combine this with simulated on-site acoustic effects to create an immersive experience for users.
System features:
Full-featured operation interface
True 3D, interactive animation
Real and reasonable well control process simulation
Fully intelligent scoring, fair and just assessment
System technical parameters
real-time voice prompt
Friendly interface, simple operation, easy to learn and use
easy to carry
Fully adopt industrial grade components, the system is stable and reliable
System Job Items:
1. Shut-in operation
2. Killing operation
Esimtech produces a variety of oil and gas simulators, if you need, please contact us.
FDM works on the basis that different hot-melt filament-like materials, such as wax, ABS, and nylon, are heated and melted, and a computer is used to control the nozzle's movement in the x, y, and z directions. Extrusion of the filamentary material occurs through a nozzle with tiny nozzles after the material is heated in the nozzle to a temperature just over its melting point.
The basic idea behind SLA is to move vertically to the height of one layer in the direction of the lifting platform, cure the next layer, and then focus the laser with a certain wavelength and intensity on the surface of the light-curing material.
How should I decide between FDM and SLA 3D printing?
When creating inexpensive models, choose FDM.
fantastic for makers and hobbyists.
in circumstances where precision and surface roughness are not crucial.
If fine features and smooth surfaces are desired, use a SLA.
It is useful for large production since casting molds are made using it.
I hope you will get in touch with JTR when you wish to print in accordance with the drawings because we provide a variety of 3D printing services.
For staff members in the sector to study on, Esimtech has created and built anoil production simulator and a gas production simulator.
Produced by Esimtech, Gas Production Simulator
The training of junior workers, intermediate workers, senior workers, technicians, and senior technicians can all be done using the gas production simulator, which combines computer technology, virtual reality technology, petroleum engineering, oil and gas storage, and transportation engineering.
Students can comprehend the internal workings and basic principles of different gas producing machinery.
The equipment's operational status can be seen on the huge screen.
The gas production simulator uses a strict mathematical model, real-world three-dimensional interactive animation, authentic environmental sound effects, and real-time voice prompt.
Produced by Esimtech, Oil Production Simulator
The oil production simulator is built on cutting-edge technologies including distributed control, virtual reality, 3D projection, and field bus connectivity. In order to achieve various skill training and target assessments for oil production employees and water injection workers, it can display all station process links in the area of oil production engineering and their relationships.
The system can adopt rigid mathematical models, preset flaws in the training process, and display the profile of a single piece of equipment.
The technology has the ability to automatically assess and judge how well the trainees performed, printing the final score.
Low operating and maintenance costs as well as the ability to stop pupils from accidentally destroying the instructional tools.
The method can be used in conjunction with the current training program to assist students in making a smooth transition from classroom instruction to practical equipment use.
1. Distinctions Among Processing Objects
Lathe processing, which is a subset of mechanical processing, is referred to as turning. The principal purpose of a lathe is to process rotating workpieces using turning tools.
The goal of milling is to fix the blank, cut on it with a high-speed rotating milling cutter, and remove the necessary features and shapes. The majority of the time, simple contour elements like contours and grooves are milled using traditional methods.
2. Various Functions
Using the rotation of the workpiece in relation to the tool on the lathe, turning is a technique for cutting the workpiece. The workpiece, not the tool, is what actually does most of the turning.
Three-axis or multiple axis milling and boring can be done using the milling and boring machining center. used for producing thin-walled complex curve surfaces, inspection tools, tire molds, processing molds, etc.
3. Various Operating Principles
Changing the subject:
The machine tool's spindle drives the workpiece to rotate as the primary motion during turning.
The turning tool that is firmly gripped on the tool holder moves the feed.
Milling tenet:
rotational milling cutters are used during the cutting process.
A milling machine or a boring machine is typically used for milling, and these machines are ideal for machining planes, grooves, unique
Four. Various Application Objects
The most fundamental and popular processing technique for cutting is the lathe. Turning can be used to process both spinning and circular surfaces. The majority of objects with rotating surfaces are machineable.
Molds, inspection molds, tire molds, and intricate thin-walled curved surfaces are just a few examples of the complex shapes and features that the milling center can process.
We have essentially comprehended the distinction between turning and milling through the foregoing explanation. JTR can offer CNC machining, metal stamping, injection molding, 3D printing, and other services as a skilled manufacturer offering high-quality quick prototype and large-scale manufacturing services. Additionally, we have a wealth of production expertise in this area.
August 2009 saw the establishment of Esimtech. It has advanced quickly in the field of the oil and gas industry thanks to its professional level and advanced technology in computer application research and development.
The first group of scientific researchers successfully created the first domestic drilling simulation device DS-1 in the mid-1990s to satisfy the needs of the expanding petroleum sector and oilfield continuing education. It received the high praise of "domestic leading, international advanced" and was given the third prize of the Sichuan Provincial Science and Technology Progress Award after passing successive evaluations conducted by China National Petroleum Corporation and the Sichuan Provincial Science and Technology Commission. For this Special report, a Sichuan TV "Science and Technology Expo" program was produced.
We have successfully developed oil drilling, well control, logging, oil production, gas production, downhole operations, oil and gas gathering and transportation, fracturing and acidizing, drilling rig installation, coiled tubing, and pressurized operations after more than 20 years of perseverance and unceasing efforts. The product line of the engineering training simulation system includes applications for the whole oil and gas industry. Among these, the technology for the DS series drilling simulators has continued to advance and become more sophisticated. Users have praised the technical service and most clients have shown fondness and faith in it. Currently, it holds more than 95% of the domestic drilling simulation device market share and is actively growing abroad.
Of course, Esimtech has obtained a number of domestic and international patents, and has become a member of IADC and IWCF.
The ability of CNC machining centers to manage the machine tool to automatically choose and replace tools in accordance with various operations once the components have been clamped once is a key characteristic of these facilities.
The CNC machining center can continuously and automatically carry out multi-process processing such as drilling, countersinking, reaming, boring, tapping, and milling. It can also automatically change auxiliary functions such as the spindle speed of the machine tool, the feed rate, and the movement trajectory of the tool relative to the workpiece.
Human error is avoided, workpiece clamping, measurement, and adjustment time of the machine tool, as well as workpiece turnover, handling, and storage time are reduced, and processing efficiency and processing are greatly improved because the machining center can carry out various processes in a centralized and automated manner. with accuracy.
Therefore, CNC machining centers may offer manufacturers CNC machining that is more practical and effective, and the advantages are substantial.
The machining centers can be classified as either vertical or horizontal.
Customers from all around the world are welcome to contact JTR because of our extensive experience and cutting-edge machinery in CNC machining.
Understand hydraulic oil:
A hydraulic medium called hydraulic oil is employed in hydraulic systems that harness the power of liquid pressure. In the hydraulic system, it performs the functions of energy transmission, anti-wear, system lubrication, anti-corrosion, rust prevention, and cooling.
The primary causes of hydraulic oil filtration are:
1. Regular maintenance is necessary to prevent contamination of hydraulic oil, mechanical oil, and refrigeration oil, regardless of how properly the equipment is installed and used.
2. Equipment failure is unavoidable as soon as the hydraulic oil's properties deteriorate. The price of equipment failure is substantially higher than the expense and time required for refrigeration, mechanical, and hydraulic oil maintenance.
3. Oil treatment is done to get rid of impurities like moisture from oil that has been or will be utilized in machinery. As a result, getting the most out of this equipment and increasing its efficiency are crucial favorable circumstances for cost savings.
You may get hydraulic oil filtration solutions from YUNENG's ZJC series hydraulic oil purifier, which can filter and purify hydraulic oil.
Pure SF6 gas has no color, no smell, and is essentially non-toxic. But when the purity is insufficient, SF6 gas will break down and emit a number of harmful compounds when combined with poisonous impurities or when exposed to high-power arc, spark discharge, or corona discharge.
If there is a leak while recovering the gas from the SF6 gas during use. It will harm the environment, electrical equipment's ability to function normally, and the health of the workers. SF6 gas recovery should be done correctly and safely as a result.
Regarding the SF6 gas recovery machinery made by YUNENG:
The SF6 compressor, vacuum pump, condensing system, liquid storage tank, purification system with integrated regeneration drying filter, vacuum system with anti-oil return device, dust filter, vacuum gauge and electrical control, and pressure detection are all components of the YUNENG SF6 recycling processor. It is made up of auxiliary features like an instrument panel and an alarm device control.
The use, operation, and scientific investigation of SF6 gas insulated electrical equipment can all be done using SF6 gas recovery equipment. It has the ability to recover and filter SF6 gas, vacuumize a variety of electrical equipment, and then refuel SF6 gas.
For SF6 and GIS integrated electrical appliances, the recovery and purifying equipment is appropriate. Please get in touch with YUNENG if you want to learn more about this equipment.
Flat items created by computers can be printed on common printers that we use every day. Despite using new printing materials, 3D printers fundamentally operate on the same principles as regular printers. Ordinary printers use ink and paper as their only printing media, whereas 3D printers can use a variety of media, including metal, ceramic, plastic, and sand.
Once the printer and computer are connected, the "printing materials" can be placed layer by layer under computer control, eventually transforming the digital blueprint into a physical thing. In layman's terms, a 3D printer is an apparatus that has the ability to "print" actual 3D objects, such as food, a robot, a toy car, and numerous models. Because the layered processing process is remarkably similar to inkjet printing, it is usually referred to as a "printer" based on the technical principles of standard printers. The name of this printing method is 3D stereo printing.
There are many different 3D printing technologies available. The method the materials are made available and the way the parts are constructed varies. Nylon glass fiber, tough nylon, gypsum, aluminum, titanium alloy, stainless steel, silver- and gold-plated materials, as well as rubber-like polymers, are typical materials used in 3D printing.
SLA, SLS, FDM, and other sorts of 3D printing technologies are among those that JTR can offer. We hope that clients that require 3D printing would get in touch.
The seat drilling simulation training system created by Esimtech can satisfy both the most recent IADC and IWCF drilling training criteria as well as the most recent drilling equipment development.
The training system is built on cutting-edge computer technology for industrial control, artificial intelligence, visualization, virtual reality, and networks. These cutting-edge technologies form the foundation for a precise simulation of the drilling engineering process.
The teaching system uses trustworthy mathematical and physical classical models. It may teach students a variety of training techniques, including tripping, drilling, well control, equipment defect detection, and handling difficult scenarios and drilling mishaps.
The front LCD splicing screen or LED screen can be used by the training system to project the three-dimensional images synced with the operating conditions, creating effects that mimic those seen in real life. Additionally, realistic environmental sound effects are produced on-site, giving viewers a sense of immersion and realism.
To enable the trainees to operate at will, the seat driller operation and the unsequential driller operation mode break the fixed operation mode that the previous training exercises required to be carried out step-by-step. The flexibility of trainees' operations, as well as the effectiveness and efficiency of their training, are considerably improved by a high degree of simulation that includes everything from well conditions to equipment operation.