In April, at a conference in San Antonio, an official from ConocoPhillips made an aggressive prediction: he said that by the end of 2014, oil production in Texas could hit 3.4 million barrels per day. That figure seems inflated given that the latest data from the Texas Railroad Commission shows that in March, oil production was about 2 million barrels per day.
But the important issue here isn’t identifying the precise production number. Instead, it’s acknowledging the trend. U.S. oil production – along with domestic natural gas output — is soaring. And here’s the remarkable part of this story: few people, if any, saw this coming.
Indeed, back in 2005, Lee Raymond, who was then the CEO of Exxon Mobil, declared that “gas production has peaked in North America.” The numbers tell a remarkably different story. In 2013, the U.S. produced a record 24.3 trillion cubic feet of gas, an increase of about 35 percent since Raymond made his claim back in 2005.
What happened? The oil and gas industry innovated. Over the past century, oil and gas drilling has gone from a business dominated by wildcatters armed with a hunch and a prayer to one that is more akin to the precision manufacturing that dominates aerospace and automobiles. Today, drilling rigs are so good that they can punch holes in the earth that are two miles deep, turn the drill bit 90 degrees, drill another two miles horizontally, and arrive within a few inches of the target.
The ongoing innovation in the oil and gas sector is happening because the U.S. has more companies working to find and deliver oil and gas than any other country in the world.More than 6,000 independent oil and gas companies are now operating in the U.S. In addition, there’s a similar number of companies providing services to those independent producers, supplying them with everything from drill bits to diesel fuel. In all, there are roughly 12,000 different companies in the oil and gas sector whose very existence depends on finding better ways to do things. To be more specific, they are trying to make their products and processes smaller, faster, lighter, denser and cheaper.
Yes, that’s the title of my new book. In the book, I show how the never-ending push to do more with less is propelling iconic American companies like Ford and Intel as well as smaller upstart companies like Kenya’s Safaricom. But I also put the spotlight on the U.S. oil and gas industry because it provides so many strong examples of innovation.
Among the most innovative is Tulsa-based Helmerich & Payne, which has been a leader in the development and deployment of the AC top-drive drill rig. First used in offshore drilling operations, Helmerich & Payne’s leaders saw that the AC top-drive — which puts the rig’s main drive mechanism onto the mast of the rig instead of on the rig’s floor – could result in major efficiency improvements for companies drilling on land in shale and other formations.
The AC top-drive consolidates the rig’s drive and hoist mechanism into one unit. That allows the automation of several mundane processes that used to require human intervention. Although many of the operations on the rig still must be handled by roughnecks, a bank of computers monitor key data points such as rotational speed on the bit and drilling and flow rates. The computers feed that data into an automated drilling-control system which keeps the optimum amount of weight on the drill bit and keeps it spinning at optimal speed. Add in the rig’s ability to use longer sections of drill pipe and its modular design — which allows it to be transported more quickly than older rig designs — and it’s easy to see how companies are able to drill more wells and do so faster and cheaper.
In addition to better drilling rigs, numerous other technologies, ranging from better drill bits and seismic techniques to more powerful pumps and nanotechnology, are allowing the oil and gas sector to accelerate the drilling process.
Faster drilling has allowed U.S. companies to produce oil and gas more cheaply. That can be seen by looking at Southwestern Energy, a Houston-based company that has pioneered the development of the Fayetteville Shale in Arkansas. Between 2007 and 2012, the company’s per-well costs in the Fayetteville Shale have stayed fairly constant, at about $3 million per well. But over that same time frame, Southwestern reduced the number of days needed to drill a well from 17 to just seven. Better yet, the initial production rate on the wells being drilled has more than tripled.
Thanks to companies like Helmerich & Payne, Southwestern, and many others, the U.S. now has a price advantage for natural gas that is second to no other country on the planet, with the possible exception of Qatar. Over the past two years or so, U.S. natural gas prices – measured at the Henry Hub in Louisiana – have averaged about $4 per million BTU. In the European Union, that same 1 million BTUs of gas will cost two to three times as much. In Japan, it will cost three to four times as much. European steelmakers now pay about twice as much for electricity and four times as much for natural gas as steel producers operating in the U.S.
Cheaper energy is attracting tens of billions of dollars of foreign investment to the U.S. Last year, an Egyptian company, Orascom, began construction on a new $1.8 billion fertilizer plant in Iowa. Last June, Vallourec, a French company, opened a new steel mill in Youngstown, Ohio, a Rust Belt town that has seen many of its industrial jobs evaporate over the past few decades. Vallourec’s investment in the new steel mill: $1.1 billion. Sasol, a South African company, is spending $21 billion on a new gas-to-liquids facility in Lake Charles, Louisiana. The project is believed to be the single largest foreign investment in U.S. history.
Late last year, BASF, the giant German industrial company, estimated that it could save nearly $700 million per year in energy costs if it were to relocate all its plants to the U.S. That clearly will not be happening, but it is indicative of the energy-cost advantage that the U.S. now enjoys. And that advantage is attracting more investment from BASF. The world’s biggest chemical maker by sales, BASF doubled the amount of capital that it invests in the U.S. In 2010, the company was investing about $500 million per year in the U.S. By 2013, that figure had jumped to $1 billion per year, and BASF expects to continue its annual investments at that level through 2017.
Cheaper energy is not only attracting foreign investment dollars, it’s also stimulating the economy. Last fall, Wallace Tyner, an energy economist at Purdue University, along with two of his Purdue colleagues, estimated that the shale revolution was adding some $473 billion per year to the U.S. economy, or about 3 percent of GDP.
It’s not difficult to imagine what the economy would look like today without that extra 3 percentage points of GDP. In 2013, according to the Bureau of Economic Analysis, the U.S. economygrew by 2.6 percent. Subtract the 3 percent being added by the surge in oil and gas now being produced from shale, and it’s clear that current unemployment numbers would be far higher than they are today.
The punchline here is readily apparent: despite myriad warnings about “peak oil” and the end of hydrocarbons, the U.S. is now leading the world in natural gas production and it may soon even eclipse Russia and Saudi Arabia in oil production. And those increases are a direct result of the oil and gas sector’s desire for smaller, faster, lighter, denser, cheaper ways of doing things.
In 1929, the economic historian Abbott Payson Usher wrote, “The limitations of resources are relative to the position of our knowledge and of our technique.” He continued, explaining that the perceived limits of available resources “recede as we advance, at rates that are proportionate to the advance in our knowledge.”
The history of the oil and gas sector is one of advancing knowledge and increasing resource availability. And those advances are giving the U.S. a significant economic advantage over the rest of the world that will endure for many years to come.
Original story may be found here.