Wellsite IT has evolved dramatically since the days when seeing a laptop on a wellsite was a rare occurrence. It has needed to. Today’s technically advanced drilling techniques use high data volumes from multiple data providers, meaning reliability and security are more important than ever. By Toni Miszewski, Managing Director at AnTech Ltd.


1st April 2020

Underbalanced Coiled Tubing Drilling system uses internet technologies to ensure reliable data handling

For a recent Underbalanced Coiled Tubing drilling (UBCTD) job in Western Australia it would have been perfectly possible for a directional driller to have steered the directional drilling assembly from the comfort of an office in the UK over satellite internet. Whilst this might not be desirable for a variety reasons, it shows the capability of modern communications and computing systems.


The same internet technology that makes ecommerce and online banking possible can be applied to high data rate oilfield applications because the fundamental requirements are the same. Namely, to provide timely, reliable, secure data to remote users. In place of static web pages, the most useful web applications that people are familiar with, deliver data from databases. This mirrors what happens in high data applications such as UBCTD so the same technologies can be used.


Another feature of the internet is that servers in data centers are managed remotely so there is software specifically adapted to configure and monitor and control hardware at a distance. This is exactly the capability that is beneficial in the oilfield where the field hands often don’t have advanced IT skills and, even if they did, they don’t have the time to put them to use, because that is not their primary task.


Most applications are not as data intensive as UBCTD so if high data applications can be made to work effectively, the same technology can work for simpler applications. To get an understanding why UBCTD is so data intensive, it is worth thinking for a moment about the measurements being acquired. In these systems, data from downhole comes up at electric wireline speeds rather than slow mud pulse speeds – it is also transferring data from up to 200 sensors at any one time. This downhole data has to be combined with surface data from the CT rig and the flowback equipment in real time. Add in the complication of these data points being controlled by different providers and you start to understand the processing power required.


In short, it means that ad hoc methods of data transfer are no longer viable.


Before the advent of the PC, the most sophisticated piece of IT at the wellsite was the wireline logging truck. As PC technology became more widespread, PC’s appeared on wellsites for reporting, email and data acquisition. From the first time someone took a computer to a wellsite, the industry has always been keen to harness what technology has to offer. However, the evolution has not been without its problems and in many cases the solution has been an ad hoc fix rather than a high-quality strategy. Everyone has a tale to tell about IT at the wellsite.


There are the practical issues. Wellsites are rugged environments that require robust equipment. Consumer grade equipment is so much cheaper and readily available than specialist ruggedized equipment, so it gets used in preference. But dust and other contaminants often shorten the useful life of consumer grade equipment.   


It’s difficult to remember the day when not everything was WiFi enabled. Cables were strung across the wellsite and how many hours have been lost repairing a communications cable that has been damaged by a truck driving over it?


When WiFi did become available, many of us will be able to recall instances where the source of a slow-running communication link was tracked down to a crew member streaming video on their mobile phone. Made possible because the network password was shared more widely than intended.


Then there’s what happens at the end of a job. With data stored on desktop computers, it’s all inaccessible between the time it’s packed up and the time it arrives back at base losing valuable post job processing and reporting time. These delays create inefficiency and cost money.


These are all signs of an IT system under limited control with all the associated security risks and performance issues. This is not a desirable or efficient way to operate and with readily available technology things can be improved dramatically.

The development of wellsite IT over time

How internet technologies help

The internet is an integral part of modern life. It has been able to become so pervasive because of its speed, reliability and ubiquity. Long gone are the days of dialling up over a phone line and logging into a single server which would display static web pages. Now it is all about load balanced server farms, redundant databases that power ecommerce and network switches that efficiently and quickly connect New York to London and to Tokyo without any extra effort by the user.


A lot of time and billions of dollars have been spent to improve the technology necessary to enable companies to move their business online. For this to have happened the IT tasks that keep the system running have had to be automated. A feature of the way that the modern internet is managed is that the person doing the managing is very rarely anywhere near the physical hardware being used and the end user needs almost no understanding of the technologies to be able to use its functions.


In oilfield terms, the wellsite crews are the equivalent of consumers who want to take advantage of IT, not run it. This has been made possible by having many applications run directly on the web through a browser without having to download any extra programs to their device. These so-called web apps can be updated centrally, and all updates are available to end users at the same time.


This same concept can be applied to the wellsite by putting a mini data center at the heart of the wellsite IT system and ensuring that there is reliable connectivity to it. With the mini data center, on-site quality-of-service to local users is maintained, and with a good internet connection, it essentially becomes another part of the cloud for the purposes of management and remote data processing.

Figure 1: AnTech's COLT BHA and workshop container, on site in Australia.  ​

The WellVault™ mini data center at the wellsite

The essential and necessary features are:


Environmental protection: Heat, cold, water, dust and vibration are the enemies of delicate IT equipment at the wellsite. These can all be addressed but sometimes the measures conflict with each other. For example, one good way of combatting the effects of dust is to specify fan-less computers. But all computers generate heat so the fan-less feature may have been made possible by slowing the computer clock speed with a knock-on effect on performance. So, if performance is critical, it will be necessary to provide dust protection and filtering for fan cooled computers. Protective cases can isolate equipment from shock and vibration in use and during shipping.


Internet connection: Each location will have an optimum way of connecting to the internet be it via satellite, mobile internet and in some cases microwave link. What is essential is that the connection is planned and tested rather than being considered as an afterthought or nice-to-have feature as may have happened in the past.


Data interfaces and displays: Individual data displays are placed around the wellsite to provide the communication required for an integrated operation such as UBCTD. These also serve as a connection to third party data sources and the driver of the WiFi access points.


Long range point-to-point WiFi: Specialist WiFi access points provide longer range than consumer items. The biggest challenge here is to be able to offer a range of secure fixing methods to be able to place them as required, preferably on the outside of cabins with reliable cable entry into the cabin.


Remotely configurable routers: To ensure equipment can be monitored and maintained remotely to avoid costly downtime, every device needs to be configurable remotely. Consumer products are readily and cheaply available, but they do not give the control of configuration or the feedback of data required for a remotely controlled industrial system. On the other hand, enterprise-grade devices do offer the level of configurability and data feedback required.


Redundancy: To ensure reliability, especially in situations where there is limited IT knowledge on site, a robust redundancy setup is required. This means at least two servers operating concurrently, one as a backup, so that in the event the first server goes down, operation can switch to the backup servers without a loss of data. Currently, the switch over is made with the intervention of a remote engineer, but newer technologies exist to enable the switch over to happen automatically without any human intervention, potentially removing server failure as a cause of any downtime.


Encryption and access control: When it comes to information security, end-to-end encryption is essential and each device has to have its own firewall and anti-virus software. To prevent the system being used by crew members for non-operational reasons, access should be limited using IP address control.



To view the full article, please visit: World Oil or contact us

Figure 2: The WellVault mini data center setup.  ​

The journey to a better wellsite IT system is to treat it as an integral part of the wellsite, central to the way that the wellsite operates rather than as an added productivity tool, added later. In a UBCTD setup, the time between rig up and rig down is relatively short, a few days, and there is no existing installation such as a rig communication system to plug into. Even if there was, it wouldn’t necessarily be configured for the large amounts of data that are part of an underbalanced drilling operation.

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