ASSOCIATED PRESS
COVER STORY
PUMP Since the first
hydraulic fracturing experiments in 1947, more than 1 million U.S. oil and gas wells have been fracked.
UNDERGROUND INNOVATORS Specialty chemical makers ramp up to help OIL AND GAS OPERATORS be more productive and environmentally responsible MELODY M. BOMGARDNER, C&EN WASHINGTON
T
HE BOOM IN U.S. oil and gas production has brought huge
economic opportunities for the country and for the chemical industry. But it has also brought close scrutiny of the chemicals used in processes such as hydraulic fracturing, also known as fracking. Between the economic hype and environmental backlash is the story of how chemicals are chosen and marketed for this industry. It’s a story complicated by the nature of the supply chain and companies’ insistence on keeping their formulations proprietary. Chemical firms, oil-field service companies, and well operators are all involved in developing chemical recipes for use in oil and gas drilling. Many of the chemicals used, such as guar gum and ethylene glycol, are common and familiar, whereas the identities of others, such as surfactants and specialty polymers, are closely guarded trade secrets.
Still, the trends driving the development and selection of chemicals used in the field are clear. Oil and gas well operators are looking for chemicals that will help them economically produce more hydrocarbons from a single drilling site, reuse water from hydraulic fracturing, and reduce risks to the environment—roughly in that order of concern. Specialty chemical firms have always served all kinds of oil and gas operations. These days, the rise of production from CEN.ACS.ORG
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unconventional sources—shale rock, deep ocean reserves, and previously tapped-out oil wells—is driving demand for more sophisticated chemistry and an increased understanding of chemical interactions deep within geologic formations. To capture a larger share of the growing industry, many chemical firms are expanding their offerings. In 2013, for example, Solvay acquired U.S.-based Chemlogics for $1.3 billion in cash. For Solvay and competitors such as Dow Chemical and Innospec, tricky performance requirements plus the sheer amount of oil and gas activity combine to make for a good business. “The industry is changing,” says Norm Byrne, director of R&D for Dow’s oil, gas, and mining business. “Things are getting deeper—for example with deepwater drilling—and also getting hotter. Environmen-
COVER STORY
tal compliance and regulatory issues are prevent bacteria growth, and protect valuas a cross-linker and friction reducer; and a key for us, and we’re seeing a lot of pressure able equipment from corrosion. nonylphenol ethoxylate. CPA has made the on increasing production and maximizing After the fracking process is complete, reports available on its website. operations. What we’re seeing is things are the water that comes back up from the wells One question that comes up, particubecoming more complex.” still contains most of those chemicals. This larly in hydraulic fracturing, is how much For instance, last month the Departso-called produced water also contains salts the well operators themselves know about ment of the Interior issued a rule that and minerals from rock formations and what is in their fracturing fluid. That’s requires companies drilling on public lands must be treated or reused; spills into soil because the chemicals may have been seto disclose the chemicals they use to the or water are a problem. The environmenlected and sold as a package by an oil and Bureau of Land Management. This and tal fate of the chemicals and breakdown gas service company such as Halliburton or other calls for transparency may benefit products from fracking is an active area of Schlumberger. Neither company agreed to the chemical industry, according to Chen research and is important to understanding speak with C&EN for this story. Pu, Solvay Novecare’s executive vice presioverall risk (C&EN, March 16, page 8). But business practices are changing dent for oil and gas. The trend will help and some operators are buying direct, says Solvay in the long run as the firm unveils MUCH OF THE PUBLICLY available inDanny Durham, a chemist who directs more environmentally friendly chemicals formation on chemicals used in hydraulic upstream chemical operations at Apache, for well operators, Pu says. fracturing comes from www.fracfocus. a Houston-based oil and gas exploration Disclosed or not, the substances used org, a voluntary data repository where well and production company. “Operators to get oil and gas out of the are hiring people like me COLORADO FRACKING SPILLS BY THE NUMBERS ground have many people from the chemical side concerned. For example, in of the business to source Amount of produced Number of hydraulic fracturing, several specific chemicals based water generated from on cost, performance, and spills from hundred different chemicals may be added to water sustainability.” fracking in 2013: fracking used to open up fractures in Durham says Apache deoperations shale rock and keep oil and cided to bypass the oil-field million bbl reported in gas flowing from horizontal service firms on chemicals 2013a: drilling wells that can reach Number of active for reasons of cost and sus5,000 feet in length. Betainability. Whereas service Amount of produced wells in the state cause a single vertical drillwater spilled in 2013: companies may charge as of March 2015: ing site can launch more more for “green” fracking than 20 horizontal wells, products, Durham says he bbl the amount of fluid used can identify chemicals that in fracking can be 20 times meet sustainability guidea Most recent full-year statistics. SOURCES: Colorado Oil & Gas Conservation Commission that of conventional wells. lines and are cheaper than And the diversity of substances comoperators report their chemical use. An what are normally used. “For example, monly used in hydraulic fracturing fluids is early-2013 analysis of the website for the Apache has sourced a friction reducer difficult to overstate. Large-volume prodenvironmental group Clean Production at a cost cheaper than what most people ucts include fairly benign ones, such as the Action (CPA) assessed to what degree hazsource, and it is drinking-water-approved” plant-derived polymer guar, as well as more ardous chemicals were associated with hyby the Environmental Protection Agency, hazardous chemicals such as benzene and draulic fracturing. Data from 6,500 wells in he says. xylene. On the specialty ingredient side are 20 states turned up CAS Registry Numbers No industry-wide criteria exist for what polymers that biodegrade and leave little or indicating 650 unique chemicals, accordmakes a “green” fracking recipe; instead, no residue, as well as microbicides that bioing to the report’s author, Brian Penttila, a each oil and gas service company sets its degrade over time but are acutely toxic to chemical engineer at the consulting firm own bar for sustainability. For example, aquatic life if they get into surface waters. iWatchChems in Seattle. on its website, Halliburton touts its use of Chemicals make up less than 1% of the The initial analysis showed 96 chemicals substances generally recognized as safe fluid that well operators use to fracture that, according to CPA codirector Lauren by the Food & Drug Administration for shale and release oil and gas; the rest is Heine, are of very high concern and 132 use in food. Chemicals that are biobased water and proppants, usually specialized where the level of hazard is unknown. and/or biodegradable are often called sand, that hold the fissures open. The Heine says CPA has put 40 of the most upon to replace longer-lasting synthetics. chemicals include thickeners and friction commonly used chemicals through its Water-based ingredients are favored over reducers to help deliver the proppants way hazard assessment program, called Greenoil-based ones. out in the horizontal wells. Other additives Screen. The list includes methenamine, a For its part, Apache tries to choose subare used to break down the thickened goo, corrosion inhibitor; ethylene glycol, used stances that meet the standards of EPA’s Design for the Environment (DfE) program. “Over the years, if you pay attention, you figure out how you can pick out the right products,” Durham says. “I start with sustainability as my goal. It turns out that if
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“Things are getting deeper ... and also getting hotter.” CEN.ACS.ORG
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I want a product line that is EPA DfE listed by CAS Registry Number, there is quite an extensive list to choose from.” As the chair of the Green Chemistry Institute’s recently established Hydraulic Fracturing Roundtable, Durham will have the opportunity to share his expertise and gain new insights from others in the industry. GCI is a division of the American Chemical Society, which publishes C&EN. The roundtable will examine the current slate of chemicals used in hydraulic fracturing, including solvents, microbicides, and corrosion inhibitors, and work to develop more sustainable alternatives. According to Durham, the main concern is the risk of surface spills; chemicals in the well generally break down during the life of the well’s operation, which can be years. Spills do happen, though they appear to be rare. Colorado is home to more than 53,000 active oil and gas wells, many of them along the front range of the Rocky Mountains, a corridor that is also home to the residents of Denver, Boulder, and Fort Collins. In 2013, 600 spills at well sites were reported to the Colorado Oil & Gas
Conservation Commission, up from 399 in 2012. The volume of water spilled was a mere 0.004% of the total produced water from all wells. According to the commission, leading causes of spills at oil and gas wells are equipment failure and human error. Of the 399 spills reported in 2012, 63 impacted groundwater and 22 impacted surface water. The commission does not track spills that happen during the transportation of chemicals or produced water. ONE ENVIRONMENTAL STRATEGY that
the industry has taken up over the past two years is to reuse the water produced by one well in a nearby well, according to A. Daniel Hill, professor of petroleum engineering at Texas A&M University. But the salts and minerals in produced water require changes to the chemical routine. For example, chemicals used to thicken fracking fluids so they can carry proppants far distances underground might not gel properly in salty water. And the poor-quality water may require new additives such as cross-linkers, Hill says. Cross-linkers—tra-
ditionally borate salts and zirconium complexes—are used to firm the gel formed from guar gum and other thickeners. What’s more, after the proppants are set up in the fractures, operators require that the viscous mixture reliquefy so the oil and gas can flow out. So they add special timerelease breakers to make the gel fall apart. To ensure this happens in salty water, Texas A&M researchers are investigating ways to encapsulate breakers, including nano-entrapped structures, Hill reports. At Dow, researchers are looking for ways to make oil and gas wells more productive even as the down-hole environment becomes more extreme. Salinity and high temperatures and pressures are all increasingly common, Byrne says. Thus, Dow’s scientists work in labs where they can simulate being 2 or 3 miles below the earth or several thousand feet below the ocean. “Part of what we offer today are rheology modifiers, such as cellulosic ones, and products able to withstand high temperatures,” Byrne explains. Rheology modifiers let operators tune the viscosity of the water-chemical mixture that moves prop-
BIOCIDE BLAST Sophisticated microbial control is required at all stages of the oil- and gas-drilling process. FRACKING WATER IS PRETREATED Water used in drilling applications, whether fresh or recycled, contains naturally occurring microorganisms that can multiply once down-hole. Pretreatment helps prevent this.
BIOCIDES ARE ADDED TO CHEMICAL MIXTURE
LONG-LASTING BIOCIDES ENHANCE PRODUCTION
Microbes that thrive underground can be particularly difcult to control. Sulfatereducing bacteria, for example, emit hydrogen sulfide, a corrosive gas. To prevent corrosion, biocides are added to fracturing chemicals.
After hydraulic fracturing is complete, microbe populations can rebound, creating slime that prevents oil and gas from flowing freely from the fractures. Biocides that survive high heat and salinity help to prevent “souring” of the well.
ClO2, oxidizers Quaternary ammoniuma/TTPC DBNPAb
Cl– Glutaraldehyde
Cl
Acroleinc
N
N N
Glutaraldehyde + quaternary ammonium
CTAC
THPSd Cl–
N +
Bronopole
( )13
Dazometf
P+ O
O
DMOg CTAC
H H Glutaraldehyde
TTPC
THNMh
Duration of Efectiveness Minutes
Hours
Days
Weeks
a For example, didecyl dimethyl ammonium chloride. b 2,2-Dibromo-3-nitriloproprionamide. c Prop-2-enal. d Tetrakis(hydroxymethyl)phosphonium sulfate. e 2-Bromo2-nitropropane-1,3-diol. f 3,5-Dimethyl-1,3,5-thiadiazine-2-thione. g 5,5-Dimethyl-2,4-oxazolidinedione. h 2-Hydroxymethyl-2-nitro-1,3-propanediol. SOURCES: Dow Chemical, C&EN
CEN.ACS.ORG
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Months
T3P ® – The New Standard in Peptide Bond Formation and Other Condensations
pants. “These are ‘triggerable’ depending on pH, temperature, and time,” he says. “That way you can get them to act when and how you want them to.” Although the conditions down the well are challenging for chemists, they are surprisingly nurturing for microbes. Bacterial populations, whether they originate from the fracking water or from deep in rock formations, multiply exponentially when served a huge meal of biopolymers. Particularly problematic are sulfatereducing bacteria, which emit corrosive and toxic hydrogen sulfide. “Microbes cause major problems including corrosion of equipment and souring of the well—which is when the bacteria plug the flow through the well and impact production,” says Rick Strittmatter, R&D director for Dow’s microbial control business. The small but mighty bugs can negatively impact both the quality and quantity of oil and gas from the well. By using microbicides, “folks are realizing they can get more out of their existing wells, and that’s more sustainable,” Strittmatter says. One of Dow’s leading microbicides, glutaraldehyde, is a favorite among those formulating low-toxic fracking fluids. Although it is classified as acutely toxic and requires safe-handling procedures similar to bleach, glutaraldehyde has a fan in Apache’s Durham because “it has very little chronic toxicity and fares very well in bioaccumulation and biodegradation testing.”
Amide Bond Formations: High Yields – Simple Work-up – No Epimerization T3P ® is an outstanding reagent to achieve quick breakthroughs even for most challenging applications. T3P ® offers a significant cost reduction potential of 20 % on overall costs. F Boc
O F
HN
T3P®
OH
O
DIPEA
Boc
N H F
F
N
N
HN
+
O
one pot NH2
F
F
IN FACT, the aqueous biocide is so popular that Dow reports
Coupling Agent
Yield (%)
counterfeit products are common. The fake stuff is usually a combination of formaldehyde, glyoxal, and other chemicals and often comes from China. At Solvay, one way to reduce potential environmental side effects from biocides and other chemicals is to combine them with a biodegradable polymer. This system can cut the amount of active chemicals required by 20% and helps operators improve the environmental profile of their wells by allowing them to reuse water multiple times. “Polymer chemistry is really the future,” Pu says. Polymer chemistry also comes into play in the area of viscosity control. Pu says he benefits from Solvay’s deep knowledge of specialty polymers such as cross-linkable compounds, which are used in a variety of products. An example with large-scale application to oil and gas is derivatized guar gum, a chemically modified polysaccharide also used in hair conditioners and as an antidrift agent for agricultural chemicals. The strength added to the guar means operators can get proppant to the farthest reaches of the horizontal well. In some cases, however, use of large amounts of a strong thickener can affect the delicate structure of the proppant dispersion. Independence Oilfield Chemicals, which is part of Innospec, has developed a low-guar recipe with an added specialty cross-linker. The company says the product works well to deliver proppants and leave behind an intact structure because it is both viscous and elastic. As a specialty chemical maker, Innospec has bought regional suppliers to the oil and gas business such as Houston-based Independence and Oklahoma City’s Bachman Services. Its goal, according to Brian R. Watt, vice president of strategic planning, is to provide a custom chemical service directly to the well operator. “We’re working to roll that service model out and continue to put research and development dollars into new products that are either better performing or more environmentally friendly,” he says. If companies with new chemical offerings can sell directly to oil- and gas-field operators, the door may open for younger firms to enter an industry that has been difficult to access. One start-
Epimerization (%)
T3P®
87
DCC/HOBt
61
5.9
EDC/HOBt
67
11.1 16.1
1.8
HBTU
66
TBTU
53
9.1
PyBOP
63
14.2
Advantages of T3P ® – Propane Phosphonic Acid Anhydride t High yields and broad functional group tolerance t Easy processes and work-up (only water-soluble by-products) t Mild conditions, typically lowest level of racemization / epimerization without additives t Safe handling, non-toxic, no sensitizing properties t Reduced overall process costs (already several large-scale pharma applications existing; 20 % cost savings possible) t T3P® has been produced by Euticals since decades as a 50 % (w/w) solution in many different solvents t Application examples: amide bond formation, esterifications, conversion of amides / acids into nitriles, isonitrile formation, oxidations and many more.
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APRIL 13, 2015
COVER STORY
“Folks are realizing they can get more out of their existing wells, and that’s more sustainable.” up, called Clean Chemistry, now claims to have its first customers for an on-site water-reuse system that relies on a reactive oxygen species. “We identified an opportunity to get to market quickly and with less technical risk by commercializing a chemistry that we synthesize with standard merchant chemicals,” explains company cofounder Damon Waters. The reactive oxygen product only lasts for a few hours—which is why it is created on-site—but it requires very little hardware, according to Waters. Once made and added to the wastewater, it can replace other chemicals to control bacteria, suspended metals, and dissolved solids, enabling reuse. Biobased chemical firms also have identified the oil and gas industry as a potential customer for their products. For example,
Elevance Renewable Sciences, which makes vegetable-oil-derived ingredients for cleaning and personal care products, says its Clean 1200 product works well as a solvent in place of hydrocarbons such as benzene. According to Frederyk Ngantung, head of technical marketing for Elevance, the bioderived cleaner removes paraffin wax deposits that block the flow of oil and gas wells. In addition to delivering performance, he says, it is more environmentally friendly, offering low volatility and flammability and ready biodegradability. Owing to the current dip in energy prices, it’s difficult to get oil and gas operators to replace familiar chemistry with something new, Solvay’s Pu acknowledges. “Once the market stabilizes, in the next 12 to 24 months, the trend of removing many of the nasty components will accelerate
again; it’s a trend that has already started.” As evidence, Pu points to drillers in some areas of the North Atlantic that operate under stringent chemical restrictions mandated by the Convention for the Protection of the Marine Environment of the North-East Atlantic, or OSPAR, for more than two decades. In 2010, OSPAR reported that discharges of substances viewed as high priorities for control had been reduced by 90% since 2003, mostly through substitution by less hazardous alternatives. In the North Atlantic and in other oil and gas regions, exploration and production firms have drastically cut back on drilling new wells. “There will be pressure on operators to get a lot more production on the wells they have or are going to drill,” Innospec’s Watt says. That could turn out well for firms that have the chemical expertise to help operators contain costs and limit environmental impact while optimizing their output. “You can have your cake and eat it too,” Durham says, “but you need to have someone knowledgeable to get you there.” ◾
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