We covered a lot of ground today, driving up from Medora, ND, to Williston, ND, through Watford City.  The traffic was not terrible for us, though the truck traffic and the road construction was slow going for a while.  We're told we missed the worst of the traffic because our timing was good. It still felt like big city traffic in what is not a big city.  Traffic

Watford City has been a prime example of a place where the oil boom has caused significant growing pains. A recent article in The Atlantic asked, What If Your Small Town Suddenly Got Huge?, and explained: 

The Bakken oil boom has brought rapid growth to many towns and cities in western North Dakota, including Williston, north of the Missouri River, and Dickinson, alongside Interstate 94. But Watford City, where the population has jumped from just 1,400 people six years ago to more than 10,000 today, has experienced a particularly dramatic shift in character. 

There is dirt being moved everywhere: for roads, for housing, and, of course, for oil.  Driving this region you see very few homes, rolling hills, a few small buttes, and some abandoned farm homes. Oil wells blend in surprisingly well in many spots, as the sites are often small, and they look like small farms, without the farm house or barn.  The colors of the sites blend in with the landscape, and are often easy to miss if they are far from the road, other than the flicker (and sometimes blaze) of flared natural gas that comes up with the oil and has no where else to go.   Notfarm

It continues to be striking to me that here in oil country, that gas is burned rather than saved, when back in West Virginia and the rest of the Marcellus Shale play (and in Texas's Barnett Shale), millions of dollars are spent per well to pull that exact commondity from the ground.  Efforts to gather the gas here in North Dakota are underway, but it's not an easy undertaking.  There is little immediate need here for natural gas, as there is abundant electricity already available because of lignite coal, and even some wind and hydro power in the state. The crew camp we visited on Tuesday is completely electric (no natural gas)– even for heat, because the prices are so low.  

Later in the day discussed traffic issues in the area with the state Department of Transportation, landowner issues with a landowner group, and air and water quality with a state health department official. I plan to write more on each of these issues in the next few weeks, so for now I'll just note that, as you'd expect, traffic is bad; landowners without mineral rights are sometimes not happy; and the health department has some challenges.

We also had the chance to speak with a geologist in the area, who explained the basics of the formation and how it works. It was interesting, but I'll leave that to the geology folks, as there are plenty of sources discussing that (PDF). The thing I wanted to note now was her explanation of the North Dakota's library of core samples. A recent Bismarck Tribune article explains:

In the early 1950s when the oil activity began, then-North Dakota State Geologist Wilson M. Laird, Ph.D., went to the legislature and lobbied to preserve the rocks of the producing zones and store them into a library. They bought Laird's concept, created a law based on the Model Act drafted by the Legal Committee of the Interstate Oil Compact Commission and the archives began.

This collection of rocks may be the most valuable rocks on the planet as they hold the secrets to the Bakken. Those secrets are being unlocked everyday as new technologies are created in response to the publicly-owned core samples of North Dakota.

Some states have adopted similar libraries, some have not. Looking across state lines at Montana where the Bakken crude also roams underfoot, less production is occurring. According to many in the industry, the historical shared data within the Wilson Laird library is one of the key reasons.

"In 2013, industry and academia examined 79,000 feet of core, an all-time record in the core library." Ed Burns, North Dakota State Geologist said. "More specifically, we had 28 companies and nine separate universities use the library."

In the past sharing data was not as common due to the large amounts of information, intellectually property rights and competition. North Dakota was the exception to that rule.

Apparently core samples are required about every 30 feet (horizontally or vertically) once the well gets below 8,000 feet vertically. (There are some exceptions when things get going quickly, but even then samples are needed about every 90 feet.) Because so much of North Dakota's information is publicly available, this information can help companies figure out what to look for in the drilling process, which can help maxmize production from wells. 

This kind of forced data sharing is rather remarkable in that it's not something we usually see among competitors.  That said, in an industry with a depleteable resource where virtually every state has a law outlawing "waste," it does makes some sense.  See, e.g., the North Dakota Century Code: 

43-02-03-06. Waste prohibited. All operators, contractors, drillers, carriers, gas distributors, service companies, pipe pulling and salvaging contractors, or other persons shall at all times conduct their operations in the drilling, equipping, operating, producing, plugging, and site reclamation of oil and gas wells in a manner that will prevent waste.

The industry would be well served to share such information and show a similar commitment to avoiding waste in all aspects of the process (not just oil and gas).  We'd probably see less water use, better environmental protection, and faster clean up where things go wrong.  There's some indication that at least the best of the industry are doing so, and I sincerely hope that continues. Stay tuned for Day 4.