DOCUMENT EXCLUSIF SUR LES RAVAGES DU GAZ DE SCHISTE/

Youcef Yousfi a-t-il donné des gages aux compagnies américaines et étrangères intéressées par l'exploitation du gaz de schiste dans le sud algérien ?
Tout porte à le croire vu la panique qui règne au sommet de l'état et ces sorties médiatiques répétées depuis la sortie dans la rue des anti-gaz de schiste à In Salah.
Le ministre qui tente de « rassurer » a-t-il été sommé par le clan présidentiel d'étouffer les contestations ?
Depuis des mois, des mensonges et pas des moindres sont balancés par certains responsables qui n'ont pas manqué de faire croire que l'exploitation du gaz de schiste n'avait aucun effet sur les nappes phréatiques, ni sur la santé des citoyens.
De leur côté les responsables de Sonatrach impliqués jusqu'au cou dans la gestion de l'exploitation de cette matière première qu'est le gaz de schiste, ont fait venir Thomas Murphy, vice-président de la société pétrolière W & T Offshore Inc dont le siège se trouve à Houston (Texas). L'américain a été présenté aux médias comme « expert, chercheur ». Opération ratée.
Je mets en ligne ici un rapport qui met en doute toutes les déclarations jusque-là faites par tous les incompétents en charge du dossier « Energie ».
Le dit rapport rédigé en 2011par un groupe de députés de la chambre des représentants américains qui avaient longuement auditionné les spécialistes dans le domaine en question, des biologistes, des ingénieurs, des géologues et des exploitants pétroliers.
Le résultat de leur enquête est accablant au point où les lobbies du pétrole ont exercé d'énormes pression sur les groupes de média pour la non publication du rapport. Rares d'ailleurs sont les universités qui avaient pu avoir accès à ce rapport. Toutefois, un HC (Honorable Correspondant) avait réussi à alerter la revue Foreign Affairs. L'espion fournira en effet depuis Washington le fameux document qui accuse à plus d'un titre les sociétés branchées dans l'extraction du gaz de schiste via la fracturation hydraulique. Foreign Affairs l'avait publié le fameux sésame malgré les pressions subies.
Le rapport dont ci-joint une copie, éclaire sur les matières chimiques utilisées aux USA pour l'extraction du pétrole non conventionnel. Halucinant.
« Aux Etats-Unis, entre 2005 et 2009, les 14 principales entreprises du domaine de la fracturation hydraulique ont utilisé plus de 2 500 produits chimiques contenant 750 composés parmi lesquels 650 contenaient des substances chimiques considérées comme étant des agents cancérigènes ou de dangereux polluants atmosphériques », font savoir les élus démocrates américains dans leur rapport.
Pire encore, ils pointent du doigt certaines grosses pointures du secteur pétrolier US.
« Les multinationales pétrolières et gazières, comme Halliburton et Schlumberger, utilisent pour la fracturation hydraulique des produits « contenant 29 substances chimiques ayant trois caractéristiques :
– Elles sont reconnues comme étant cancérigènes pour les êtres humains ;
– Elles sont assujetties à la Loi sur le contrôle de la qualité de l'eau (Safe Drinking Water Act en anglais) en raison des risques qu'elles comportent pour la santé publique ;
– Elles figurent sur la liste des polluants atmosphériques établie par la Loi sur l'air pur ».
Que dire de plus pour convaincre Sellal & co ?
Le même rapport fait état d'une utilisation abusive des produits chimiques(Naphtalène,Xylène,Toluène,Benzène entre autres) pour l'extraction.
« Pendant le laps de temps susmentionné, les entreprises du domaine de la fracturation hydraulique ont utilisé 95 produits contenant 13 substances cancérigènes différentes, dont le naphtalène, le benzène et l'acrylamide. Les entreprises qui « ont utilisé le plus grand volume de liquides contenant une substance cancérigène ou plus sont celles du Texas, du Colorado et de l'Oklahoma ».
Pour l'environnement, les accusations sont terrifiantes : les sociétés pétrolières ont utilisé 595 produits dont 24 sont hautement polluants pour l'atmosphère. Ils citeront le fluorure d'hydrogène, le méthanol, le plomb en argumentant sur la dangerosité de cette utilisation criminelle de produits toxiques dans la fracturation hydraulique. Contrairement à notre Sellal national qui nous a surpris le mois dernier en avançant que les matières utilisées dans les forages n'avaient rien de nocives, les élus américains, soucieux des risques de contamination, de tremblement de terre, de sècheresse, n'ont pas manqué d'attirer l'attention sur les dangers de la fracturation hydraulique.
================================================================
UNITED STATES HOUSE OF REPRESENTATIVES
COMMITTEE ON ENERGY AND COMMERCE
MINORITY STAFF
APRIL 2011
CHEMICALS USED IN HYDRAULIC FRACTURING
PREPARED BY COMMITTEE STAFF FOR:
Henry A. Waxman
Edward J. Markey
Diana DeGette
Ranking Member
Ranking Member
Ranking Member
Committee on Energy
Committee on Natural
Subcommittee on Oversight
and Commerce
Resources
and Investigations
TABLE OF CONTENTS
I. EXECUTIVE SUMMARY………………………………………………………………….1
II. BACKGROUND…………………………………………………………………………………2
III. METHODOLOGY…………………………………………………………………………….4
IV. HYDRAULIC FRACTURING FLUIDS AND THEIR CONTENTS.....5
…………………………………………..6
A. Commonly Used Chemical Components
……………………………………………………………8
B. Toxic Chemicals..............
V. USE OF PROPRIETARY AND "TRADE SECRET" CHEMICALS…..11
VI. CONCLUSION………………………………………………………………………………….12
APPENDIX A……………………………………………………………………………………………13
I. EXECUTIVE SUMMARY
Hydraulic fracturing has helped to expand natural gas production in the United States,
unlocking large natural gas supplies in shale and other unconventional formations across the
country. As a result of hydraulic fracturing and advances in horizontal drilling technology,
natural gas production in 2010 reached the highest level in decades. According to new estimates
by the Energy Information Administration (EIA), the United States possesses natural gas
resources sufficient to supply the United States for approximately 110 years.
As the use of hydraulic fracturing has grown, so have concerns about its environmental
and public health impacts. One concern is that hydraulic fracturing fluids used to fracture rock
formations contain numerous chemicals that could harm human health and the environment,
especially if they enter drinking water supplies. The opposition of many oil and gas companies
to public disclosure of the chemicals they use has compounded this concern.
Last Congress, the Committee on Energy and Commerce launched an investigation to
examine the practice of hydraulic fracturing in the United States. As part of that inquiry, the
Committee asked the 14 leading oil and gas service companies to disclose the types and volumes
of the hydraulic fracturing products they used in their fluids between 2005 and 2009 and the
chemical contents of those products. This report summarizes the information provided to the
Committee.
Between 2005 and 2009, the 14 oil and gas service companies used more than 2,500
hydraulic fracturing products containing 750 chemicals and other components. Overall, these
companies used 780 million gallons of hydraulic fracturing products – not including water added
at the well site – between 2005 and 2009.
Some of the components used in the hydraulic fracturing products were common and
generally harmless, such as salt and citric acid. Some were unexpected, such as instant coffee
and walnut hulls. And some were extremely toxic, such as benzene and lead. Appendix A lists
each of the 750 chemicals and other components used in hydraulic fracturing products between
2005 and 2009.
The most widely used chemical in hydraulic fracturing during this time period, as
measured by the number of compounds containing the chemical, was methanol. Methanol,
which was used in 342 hydraulic fracturing products, is a hazardous air pollutant and is on the
candidate list for potential regulation under the Safe Drinking Water Act. Some of the other
most widely used chemicals were isopropyl alcohol (used in 274 products), 2-butoxyethanol
(used in 126 products), and ethylene glycol (used in 119 products).
Between 2005 and 2009, the oil and gas service companies used hydraulic fracturing
products containing 29 chemicals that are (1) known or possible human carcinogens, (2)
regulated under the Safe Drinking Water Act for their risks to human health, or (3) listed as
hazardous air pollutants under the Clean Air Act. These 29 chemicals were components of more
than 650 different products used in hydraulic fracturing.
1
The BTEX compounds – benzene, toluene, xylene, and ethylbenzene – appeared in 60 of
the hydraulic fracturing products used between 2005 and 2009. Each BTEX compound is a
regulated contaminant under the Safe Drinking Water Act and a hazardous air pollutant under the
Clean Air Act. Benzene also is a known human carcinogen. The hydraulic fracturing companies
injected 11.4 million gallons of products containing at least one BTEX chemical over the five
year period.
In many instances, the oil and gas service companies were unable to provide the
Committee with a complete chemical makeup of the hydraulic fracturing fluids they used.
Between 2005 and 2009, the companies used 94 million gallons of 279 products that contained at
least one chemical or component that the manufacturers deemed proprietary or a trade secret.
Committee staff requested that these companies disclose this proprietary information. Although
some companies did provide information about these proprietary fluids, in most cases the
companies stated that they did not have access to proprietary information about products they
purchased "off the shelf" from chemical suppliers. In these cases, the companies are injecting
fluids containing chemicals that they themselves cannot identify.
II. BACKGROUND
Hydraulic fracturing – a method by which oil and gas service companies provide access
to domestic energy trapped in hard-to-reach geologic formations — has been the subject of both
enthusiasm and increasing environmental and health concerns in recent years. Hydraulic
fracturing, used in combination with horizontal dr illing, has allowed industry to access natural
gas reserves previously considered uneconomical, particularly in shale formations. As a result of
the growing use of hydraulic fracturing, natural gas production in the United States reached
21,577 billion cubic feet in 2010, a level not achieved since a period of high natural gas
production between 1970 and 1974.
Overall, the Energy Information Administration now
1
projects that the United States possesses 2,552 trillion cubic feet of potential natural gas
resources, enough to supply the United States for approximately 110 years. Natural gas from
shale resources accounts for 827 trillion cubic feet of this total, which is more than double what
the EIA estimated just a year ago.
2
Hydraulic fracturing creates access to more natural gas supplies, but the process requires
the use of large quantities of water and fracturing fluids, which are injected underground at high
volumes and pressure. Oil and gas service companies design fracturing fluids to create fractures
and transport sand or other granular substances to prop open the fractures. The composition of
these fluids varies by formation, ranging from a simple mixture of water and sand to more
complex mixtures with a multitude of chemical additives. The companies may use these
Energy Information Administration (EIA),
Natural Gas Monthly (Mar. 2011)
, Table 1,
1
U.S. Natural Gas Monthly Supply and Disposition Balance (online at
www.eia.gov/dnav/ng/hist/n9070us1A.htm) (accessed Mar. 30, 2011).
EIA,
Annual Energy Outlook 2011 Early Release
(Dec. 16, 2010); EIA,
What is shale
2
gas and why is it important?
(online at www.eia.doe.gov/energy_in_brief/about_shale_gas.cfm)
(accessed Mar. 30, 2011).
2
chemical additives to thicken or thin the fluids, improve the flow of the fluid, or kill bacteria that
can reduce fracturing performance.
3
Some of these chemicals, if not disposed of safely or allowed to leach into the drinking
water supply, could damage the environment or pose a risk to human health. During hydraulic
fracturing, fluids containing chemicals are injected deep underground, where their migration is
not entirely predictable. Well failures, such as the use of insufficient well casing, could lead to
their release at shallower depths, closer to drinking water supplies.
Although some fracturing
4
fluids are removed from the well at the end of the fracturing process, a substantial amount
remains underground.
5
While most underground injections of chemicals are subject to the protections of the Safe
Drinking Water Act (SDWA), Congress in 2005 modified the law to exclude "the underground
injection of fluids or propping agents (other than diesel fuels) pursuant to hydraulic fracturing
operations related to oil, gas, or geothermal production activities" from the Act's protections.
6
Unless oil and gas service companies use diesel in the hydraulic fracturing process, the
permanent underground injection of chemicals used for hydraulic fracturing is not regulated by
the Environmental Protection Agency (EPA).
Concerns also have been raised about the ultimate outcome of chemicals that are
recovered and disposed of as wastewater. This wastewater is stored in tanks or pits at the well
site, where spills are possible.
For final disposal, well operators must either recycle the fluids
7
for use in future fracturing jobs, inject it into underground storage wells (which, unlike the
fracturing process itself, are subject to the Safe Drinking Water Act), discharge it to nearby
surface water, or transport it to wastewater treatment facilities.
A recent report in the
New York
8
U.S. Environmental Protection Agency,
Evaluation of Impacts to Underground Sources
3
of Drinking Water by Hydraulic Fracturing of Coalbed Methane Reservoirs
(June 2004) (EPA
816-R-04-003) at 4-1 and 4-2.
For instance, Pennsylvania's Department of Environmental Protection has cited Cabot
4
Oil & Gas Corporation for contamination of drinking water wells with seepage caused by weak
casing or improper cementing of a natural gas well.
See Officials in Three States Pin Water
Woes on Gas Drilling
, ProPublica (Apr. 26, 2009) (online at
www.propublica.org/article/officials-in-three-states-pin-water-woes-on-gas-drilling-426)
(accessed Mar. 24, 2011).
John A. Veil, Argonne National Laboratory,
Water Management Technologies Used by
5
Marcellus Shale Gas Producers
,
prepared for the Department of Energy (July 2010), at 13
(hereinafter "
Water Management Technologies
").
42 U.S.C. § 300h(d). Many dubbed this provision the "Halliburton loophole" because
6
of Halliburton's ties to then-Vice President Cheney and its role as one of the largest providers of
hydraulic fracturing services.
See The Halliburton Loophole
, New York Times (Nov. 9. 2009).
See
EPA,
Draft Hydraulic Fracturing Study Plan
(Feb. 7, 2011), at 37;
Regulation Lax
7
as Gas Wells' Tainted Water Hits Rivers
, New York Times (Feb. 26, 2011).
Water Management Technologies
, at 13.
8
3
Times
raised questions about the safety of surface water discharge and the ability of water
treatment facilities to process wastewater from natural gas drilling operations.
9
Any risk to the environment and human health posed by fracturing fluids depends in large
part on their contents. Federal law, however, contains no public disclosure requirements for oil
and gas producers or service companies involved in hydraulic fracturing, and state disclosure
requirements vary greatly.
While the industry has recently announced that it soon will create a
10
public database of fluid components, reporting to this database is strictly voluntary, disclosure
will not include the chemical identity of products labeled as proprietary, and there is no way to
determine if companies are accurately reporting information for all wells.
11
The absence of a minimum national baseline for disclosure of fluids injected during the
hydraulic fracturing process and the exemption of most hydraulic fracturing injections from
regulation under the Safe Drinking Water Act has left an informational void concerning the
contents, chemical concentrations, and volumes of fluids that go into the ground during
fracturing operations and return to the surface in the form of wastewater. As a result, regulators
and the public are unable effectively to assess any impact the use of these fluids may have on the
environment or public health.
III. METHODOLOGY
On February 18, 2010, the Committee commenced an investigation into the practice of
hydraulic fracturing and its potential impact on water quality across the United States. This
investigation built on work begun by Ranking Member Henry A. Waxman in 2007 as Chairman
of the Committee on Oversight and Government Reform. The Committee initially sent letters to
eight oil and gas service companies engaged in hydraulic fracturing in the United States. In May
2010, the Committee sent letters to six additional oil and gas service companies to assess a
Regulation Lax as Gas Wells' Tainted Water Hits Rivers
, New York Times (Feb. 26,
9
2011).
Wyoming, for example, recently enacted relatively strong disclosure regulations,
10
requiring disclosure on a well-by-well basis and "for each stage of the well stimulation
program," "the chemical additives, compounds and concentrations or rates proposed to be mixed
and injected."
See
WCWR 055-000-003 Sec. 45. Similar regulations became effective in
Arkansas this year.
See
Arkansas Oil and Gas Commission Rule B-19. In Wyoming, much of
this information is, after an initial period of review, available to the public.
See
WCWR 055-
000-003 Sec. 21. Other states, however, do not insist on such robust disclosure. For instance,
West Virginia has no disclosure requirements for hydraulic fracturing and expressly exempts
fluids used during hydraulic fracturing from the disclosure requirements applicable to
underground injection of fluids for purposes of waste storage.
See
W. Va. Code St. R. § 34-5-7.
See Ground Water Protection Council Calls for Disclosure of Chemicals Used in Shale
11
Gas Exploration
, Ground Water Protection Council (Oct. 5, 2010) (online at
www.wqpmag.com/Ground-Water-Protection-Council-Calls-for-Disclosure-of-Chemicals-in-
Shale-Gas-Exploration-newsPiece21700) (accessed Mar. 24, 2011).
4
broader range of industry practices.
The February and May letters requested information on
12
the type and volume of chemicals present in the hydraulic fracturing products that each company
used in their fluids between 2005 and 2009.
The 14 oil and gas service companies that received the letter voluntarily provided
substantial information to the Committee. As requested, the companies reported the names and
volumes of the products they used during the five-year period.
For each hydraulic fracturing
13
product reported, the companies also provided a Material Safety Data Sheet (MSDS) detailing
the product's chemical components. The Occupational Safety and Health Administration
(OSHA) requires chemical manufacturers to create a MSDS for every product they sell as a
means to communicate potential health and safety hazards to employees and employers. The
MSDS must list all hazardous ingredients if they comprise at least 1% of the product; for
carcinogens, the reporting threshold is 0.1%.
14
Under OSHA regulations, manufacturers may withhold the identity of chemical
components that constitute "trade secrets."
If the MSDS for a particular product used by a
15
company subject to the Committee's investigation reported that the identity of any chemical
component was a trade secret, the Committee asked the company that used that product to
provide the proprietary information, if available.
IV. HYDRAULIC FRACTURING FLUIDS AND THEIR CONTENTS
Between 2005 and 2009, the 14 oil and gas service companies used more than 2,500
hydraulic fracturing products containing 750 chemicals and other components.
Overall, these
16
companies used 780 million gallons of hydraulic fracturing products in their fluids between 2005
and 2009. This volume does not include water that the companies added to the fluids at the well
site before injection. The products are comprised of a wide range of chemicals. Some are
seemingly harmless like sodium chloride (salt), gelatin, and citric acid. Others could pose a
severe risk to human health or the environment.
The Committee sent letters to Basic Energy Services, BJ Services, Calfrac Well
12
Services, Complete Production Services, Frac Tech Services, Halliburton, Key Energy Services,
RPC, Sanjel Corporation, Schlumberger, Superior Well Services, Trican Well Service, Universal
Well Services, and Weatherford.
BJ Services, Halliburton, and Schlumberger already had provided the Oversight
13
Committee with data for 2005 through 2007. For BJ Services, the 2005-2007 data is limited to
natural gas wells. For Schlumberger, the 2005-2007 data is limited to coalbed methane wells.
29 CFR 1910.1200(g)(2)(i)(C)(1).
14
29 CFR 1910.1200.
15
Each hydraulic fracturing "product" is a mixture of chemicals or other components
16
designed to achieve a certain performance goal, such as increasing the viscosity of water. Some
oil and gas service companies create their own products; most purchase these products from
chemical vendors. The service companies then mix these products together at the well site to
formulate the hydraulic fracturing fluids that they pump underground.
5
Some of the components were surprising. One company told the Committee that it used
instant coffee as one of the components in a fluid designed to inhibit acid corrosion. Two
companies reported using walnut hulls as part of a breaker—a product used to degrade the
fracturing fluid viscosity, which helps to enhance post-fracturing fluid recovery. Another
company reported using carbohydrates as a breaker. One company used tallow soap—soap
made from beef, sheep, or other animals—to reduce loss of fracturing fluid into the exposed
rock.
Appendix A lists each of the 750 chemicals and other components used in the hydraulic
fracturing products injected underground between 2005 and 2009.
A. Commonly Used Chemical Components
The most widely used chemical in hydraulic fracturing during this time period, as
measured by the number of products containing the chemical, was methanol. Methanol is a
hazardous air pollutant and a candidate for regulation under the Safe Drinking Water Act. It was
a component in 342 hydraulic fracturing products. Some of the other most widely used
chemicals include isopropyl alcohol, which was used in 274 products, and ethylene glycol, which
was used in 119 products. Crystalline silica (silicon dioxide) appeared in 207 products, generally
proppants used to hold open fractures. Table 1 has a list of the most commonly used compounds
in hydraulic fracturing fluids.
Table 1. Chemical Components Appearing Most Often in
Hydraulic Fracturing Products Used Between 200 5 and 2009
No. of
Products
Containing
Chemical Component
Chemical
Methanol (Methyl alcohol) 342
Isopropanol (Isopropyl alcohol, Propan-2-ol) 274
Crystalline silica – quartz (SiO2) 207
Ethylene glycol monobutyl ether (2-butoxyethanol) 126
Ethylene glycol (1,2-ethanediol) 119
Hydrotreated light petroleum distillates 89
Sodium hydroxide (Caustic soda) 80
6
Hydraulic fracturing companies used 2-butoxyethanol (2-BE) as a foaming agent or
surfactant in 126 products. According to EPA scientists, 2-BE is easily absorbed and rapidly
distributed in humans following inhalation, ingestion, or dermal exposure. Studies have shown
that exposure to 2-BE can cause hemolysis (destruction of red blood cells) and damage to the
spleen, liver, and bone marrow.
The hydraulic fracturing companies injected 21.9 million
17
gallons of products containing 2-BE between 2005 and 2009. They used the highest volume of
products containing 2-BE in Texas, which accounted for more than half of the volume used.
EPA recently found this chemical in drinking water wells tested in Pavillion, Wyoming.
Table
18
2 shows the use of 2-BE by state.
Table 2. States with the Highest Volume of
Hydraulic Fracturing Fluids Containing
2-Butoxyethanol (2005-2009)
Fluid Volume
State
(gallons)
Texas 1 2,031,734
Oklahoma 2,186,613
New Mexico 1,871,501
Colorado 1,147,614
Louisiana 890,068
Pennsylvania 747,416
West Virginia 464,231
Utah 382,874
Montana 362,497
Arkansas 348,959
EPA,
Toxicological Review of Ethylene Glycol Monobutyl Ether
(Mar. 2010)
at 4.
17
EPA,
Fact Sheet: January 2010 Sampling Results and Site Update, Pavillion,
18
Wyoming Groundwater Investigation
(Aug. 2010) (online at
www.epa.gov/region8/superfund/wy/pavillion/PavillionWyomingFactSheet.pdf) (accessed Mar.
1, 2011).
7
B. Toxic Chemicals
The oil and gas service companies used hydraulic fracturing products containing 29
chemicals that are (1) known or possible human carcinogens, (2) regulated under the Safe
Drinking Water Act for their risks to human health, or (3) listed as hazardous air pollutants under
the Clean Air Act. These 29 chemicals were components of 652 different products used in
hydraulic fracturing. Table 3 lists these toxic chemicals and their frequency of use.
Table 3. Chemicals Components of Concern: Carcinogens, SDWA-Regulated
Chemicals, and Hazardous Air Pollutants
No. of
Chemical Component Chemical Category
Products
Methanol (Methyl alcohol) HAP 342
Ethylene glycol (1,2-ethanediol) HAP 119
19
Diesel
Carcinogen, SDWA, HAP 51
Naphthalene Carcinogen, HAP 44
Xylene SDWA, HAP 44
Hydrogen chloride (Hydrochloric acid) HAP 42
Toluene SDWA, HAP 29
Ethylbenzene SDWA, HAP 28
Diethanolamine (2,2-iminodiethanol) HAP 14
Formaldehyde Carcinogen, HAP 12
Sulfuric acid Carcinogen 9
Th iourea Carcinogen 9
Ben zyl chloride Carcinogen, HAP 8
Cumene
HAP 6
Nitrilotriacetic acid Carcinogen 6
Dimethyl formamide HAP 5
Phenol
HAP 5
Benzene Carcinogen, SDWA, HAP 3
Di (2-ethylhexyl) phthalate Carcinogen, SDWA, HAP 3
Acrylamide Carcinogen, SDWA, HAP 2
Hydrogen fluoride (Hydrofluoric acid) HAP 2
Phthalic anhydride HAP 2
Acetaldehyde Carcinogen, HAP 1
Acetophenone
HAP 1
Copper
SDWA 1
Ethylene oxide Carcinogen, HAP 1
Lead Carcinogen, SDWA, HAP 1
Propylen e ox ide Carcinogen, HAP 1
p-Xylene
HAP 1
Number of Products Containing a Component of Concern 652
According to EPA, diesel contains benzene, toluene, ethylbenzene, and xylenes.
See
19
EPA,
Evaluation of Impacts to Underground Sources of Drinking Water by Hydraulic
Fracturing of Coalbed Methane Reservoirs
(June 2004) (EPA 816-R-04-003) at 4-11.
8
1. Carcinogens
Between 2005 and 2009, the hydraulic fracturing companies used 95 products containing
13 different carcinogens.
These included naphthalene (a possible human carcinogen), benzene
20
(a known human carcinogen), and acrylamide (a probable human carcinogen). Overall, these
companies injected 10.2 million gallons of fracturing products containing at least one
carcinogen. The companies used the highest volume of fluids containing one or more
carcinogens in Texas, Colorado, and Oklahoma. Table 4 shows the use of these chemicals by
state.
Table 4. States with at Least 100,000
Gallons of Hydraulic Fracturing Fluids
Containing a Carcinogen (2005-200 9)
Fluid Volume
State
(gallons)
Texas 3,877,273
Colorado 1,544,388
Oklahoma 1,098,746
Louisiana 777,945
Wyoming 759,898
North Dakota 557,519
New Mexico 511,186
Montana 394,873
Utah 382,338
2. Safe Drinking Water Act Chemicals
Under the Safe Drinking Water Act, EPA regulates 53 chemicals that may have an
adverse effect on human health and are known to or likely to occur in public drinking water
systems at levels of public health concern. Between 2005 and 2009, the hydraulic fracturing
companies used 67 products containing at least one of eight SDWA-regulated chemicals.
Overall, they injected 11.7 million gallons of fracturing products containing at least one chemical
regulated under SDWA. Most of these chemicals were injected in Texas. Table 5 shows the use
of these chemicals by state.
For purposes of this report, a chemical is considered a "carcinogen" if it is on one of
20
two lists: (1) substances identified by the National Toxicology Program as "known to be human
carcinogens" or as "reasonably anticipated to be human carcinogens"; and (2) substances
identified by the International Agency for Research on Cancer, part of the World Health
Organization, as "carcinogenic" or "probably carcinogenic" to humans. See U.S. Department of
Health and Human Services, Public Health Service, National Toxicology Program,
Report on
Carcinogens, Eleventh Edition
(Jan. 31, 2005) and World Health Organization, International
Agency for Research on Cancer,
Agents Classified by the IARC Monographs
(online at
http://monographs.iarc.fr/ENG/Classification/index.php) (accessed Feb. 28, 2011).
9
The vast majority of these SDWA-regulated chemicals were the BTEX compounds –
benzene, toluene, xylene, and ethylbenzene. The BTEX compounds appeared in 60 hydraulic
fracturing products used between 2005 and 2009 and were used in 11.4 million gallons of
hydraulic fracturing fluids. The Department of Health and Human Services, the International
Agency for Research on Cancer, and EPA have determined that benzene is a human
carcinogen.
Chronic exposure to toluene, ethylbenzene, or xylenes also can damage the central
21
nervous system, liver, and kidneys.
22
Table 5. States with at Least 100,000 Gallons of
Hydraulic Fracturing Fluids Containing a SDWA-
Regulated Chemical (2005-2009)
Fluid Volume
State
(gallons)
Texas 9,474,631
New Mexico 1,157,721
Colorado 375,817
Oklahoma 202,562
Mississippi 108,809
North Dakota 100,479
In addition, the hydraulic fracturing companies injected more than 30 million gallons of
diesel fuel or hydraulic fracturing fluids containing diesel fuel in wells in 19 states.
In a 2004
23
report, EPA stated that the "use of diesel fuel in fracturing fluids poses the greatest threat" to
underground sources of drinking water.
Diesel fuel contains toxic constituents, including
24
BTEX compounds.
25
EPA also has created a Candidate Contaminant List (CCL), which is a list of
contaminants that are currently not subject to national primary drinking water regulations but are
known or anticipated to occur in public water systems and may require regulation under the Safe
Drinking Water Act in the future.
Nine chemicals on that list—1-butanol, acetaldehyde, benzyl
26
U.S. Department of Health and Human Services, Agency for Toxic Substances and
21
Disease Registry,
Public Health Statement for Benzene
(Aug. 2007).
EPA,
Basic Information about Toluene in Drinking Water
,
Basic Information about
22
Ethylbenzene in Drinking Water
,
and
Basic Information about Xylenes in Drinking Water
(online
at http://water.epa.gov/drink/contaminants/basicinformation/index.cfm) (accessed Oct. 14,
2010).
Letter from Reps. Henry A. Waxman, Edward J. Markey, and Diana DeGette to the
23
Honorable Lisa Jackson, Administrator, U.S. Environmental Protection Agency (Jan. 31, 2011).
EPA,
Evaluation of Impacts to Underground Sources of Drinking Water by Hydraulic
24
Fracturing of Coalbed Methane Reservoirs
(June 2004) (EPA 816-R-04-003) at 4-11.
Id.
25
EPA,
Contaminant Candidate List 3
(online at
26
http://water.epa.gov/scitech/drinkingwater/dws/ccl/ccl3.cfm) (accessed Mar. 31, 2011).
10
chloride, ethylene glycol, ethylene oxide, formaldehyde, methanol, n-methyl-2-pyrrolidone, and
propylene oxide—were used in hydraulic fracturing products between 2005 and 2009.
3. Hazardous Air Pollutants
The Clean Air Act requires EPA to control the emission of 187 hazardous air pollutants,
which are pollutants that cause or may cause cancer or other serious health effects, such as
reproductive effects or birth defects, or adverse environmental and ecological effects.
Between
27
2005 and 2009, the hydraulic fracturing companies used 595 products containing 24 different
hazardous air pollutants.
Hydrogen fluoride is a hazardous air pollutant that is a highly corrosive and systemic
poison that causes severe and sometimes delayed health effects due to deep tissue penetration.
Absorption of substantial amounts of hydrogen fluoride by any route may be fatal.
One of the
28
hydraulic fracturing companies used 67,222 gallons of two products containing hydrogen
fluoride in 2008 and 2009.
Lead is a hazardous air pollutant that is a heavy metal that is particularly harmful to
children's neurological development. It also can cause health problems in adults, including
reproductive problems, high blood pressure, and nerve disorders.
One of the hydraulic
29
fracturing companies used 780 gallons of a product containing lead in this five-year period.
Methanol is the hazardous air pollutant that appeared most often in hydraulic fracturing
products. Other hazardous air pollutants used in hydraulic fracturing fluids included
formaldehyde, hydrogen chloride, and ethylene glycol.
V. USE OF PROPRIETARY AND "TRADE SECRET" CHEMICALS
Many chemical components of hydraulic fracturing fluids used by the companies were
listed on the MSDSs as "proprietary" or "trade secret." The hydraulic fracturing companies used
93.6 million gallons of 279 products containing at least one proprietary component between 2005
and 2009.
30
Clean Air Act Section 112(b), 42 U.S.C. § 7412.
27
HHS, Agency for Toxic Substances and Disease Registry,
Medical Management
28
Guidelines for Hydrogen Fluoride
(online at www.atsdr.cdc.gov/mhmi/mmg11.pdf) (accessed
Mar. 24, 2011).
EPA,
Basic Information about Lead
(online at www.epa.gov/lead/pubs/leadinfo.htm)
29
(accessed Mar. 30, 2011).
This is likely a conservative estimate. We included only those products for which the
30
MSDS says "proprietary" or "trade secret" instead of listing a component by name or providing
the CAS number. If the MSDS listed a component's CAS as N.A. or left it blank, we did not
count that as a trade secret claim, unless the company specified as such in follow-up
correspondence.
11
The Committee requested that these companies disclose this proprietary information.
Although a few companies were able to provide additional information to the Committee about
some of the fracturing products, in most cases the companies stated that they did not have access
to proprietary information about products they purchased "off the shelf" from chemical
suppliers. The proprietary information belongs to the suppliers, not the users of the chemicals.
Universal Well Services, for example, told the Committee that it "obtains hydraulic
fracturing products from third-party manufacturers, and to the extent not publicly disclosed,
product composition is proprietary to the respective vendor and not to the Company."
31
Complete Production Services noted that the company always uses fluids from third-party
suppliers who provide an MSDS for each product. Complete confirmed that it is "not aware of
any circumstances in which the vendors who provided the products have disclosed this
proprietary information" to the company, further noting that "such information is highly
proprietary for these vendors, and would not generally be disclosed to service providers" like
Complete.
Key Energy Services similarly stated that it "generally does not have access to the
32
trade secret information as a purchaser of the chemical(s)."
Trican also told the Committee that
33
it has limited knowledge of "off the shelf" products purchased from a chemical distributor or
manufacturer, noting that "Trican does not have any information in its possession about the
components of such products beyond what the distributor of each product provided Trican in the
MSDS sheet."
34
In these cases, it appears that the companies are injecting fluids containing unknown
chemicals about which they may have limited understanding of the potential risks posed to
human health and the environment.
VI. CONCLUSION
Hydraulic fracturing has opened access to vast domestic reserves of natural gas that could
provide an important stepping stone to a clean energy future. Yet questions about the safety of
hydraulic fracturing persist, which are compounded by the secrecy surrounding the chemicals
used in hydraulic fracturing fluids. This analysis is the most comprehensive national assessment
to date of the types and volumes of chemical used in the hydraulic fracturing process. It shows
that between 2005 and 2009, the 14 leading hydraulic fracturing companies in the United States
used over 2,500 hydraulic fracturing products containing 750 compounds. More than 650 of
these products contained chemicals that are known or possible human carcinogens, regulated
under the Safe Drinking Water Act, or listed as hazardous air pollutants.
Letter from Reginald J. Brown to Henry A. Waxman, Chairman, Committee on Energy
31
and Commerce, and Edward J. Markey, Chairman, Subcommittee on Energy and Environment
(Apr. 16, 2010).
Letter from Philip Perry to Henry A. Waxman, Chairman, Committee Energy and
32
Commerce, and Edward J. Markey, Chairman, Subcommittee on Energy and Environment (Aug.
6, 2010).
E-mail from Peter Spivack to Committee Staff (Aug. 5, 2010).
33
E-mail from Lee Blalack to Committee Staff (July 29, 2010).
34
12
Appendix A. Chemical Components of Hydraulic Fracturing Products, 2005-2009
35
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
1-(1-naphthylmethyl)quinolinium chloride 65322-65-8 1
1,2,3-propanetricarboxylic acid, 2-hydroxy-, trisodium salt, dihydrate 6132-04-3 1
1,2,3-trimethylbenzene
526-73-8 1
1,2,4-trimethylbenzene
95-63-6 21
1,2-benzisothiazol-3
2634-33-5 1
1,2-dibromo-2,4-dicyanobutane
35691-65-7 1
1,2-ethanediaminium, N, N'-bis[2-[bis(2-hydroxyethyl)methylammonio]ethyl]-N,N'-
bis(2-hydroxyethyl)-N,N'-dimethyl-,tetrach loride 138879-94-4 2
1,3,5-trimethylbenzene
108-67-8 3
1,6-hexanediamine dihydrochloride
6055-52-3 1
1,8-diamino-3,6-dioxaoctane
929-59-9 1
1-hexanol
111-27-3 1
1-methoxy-2-propanol
107-98-2 3
2,2`-azobis (2-amidopropane) dihydrochloride 2997-92-4 1
2,2-dibromo-3-nitrilopropionamide
10222-01-2 27
2-acrylamido-2-methylpropanesulphonic acid sodium salt polymer * 1
2-bromo-2-nitropropane-1,3-diol
52-51-7 4
2-butanone oxime
96-29-7 1
2-hydroxypropionic acid
79-33-4 2
2-mercaptoethanol (Thioglycol)
60-24-2 13
2-methyl-4-isothiazolin-3-one
2682-20-4 4
2-monobromo-3-nitrilopropionamide
1113-55-9 1
2-phosphonobutane-1,2,4-tricarboxylic acid 37971-36-1 2
2-phosphonobutane-1,2,4-tricarboxylic acid, potassium salt 93858-78-7 1
2-substituted aromatic amine salt
* 1
4,4′-diaminodiphenyl sulfone
80-08-0 3
5-chloro-2-methyl-4-isothiazolin-3-one
26172-55-4 5
Acetaldehyde
75-07-0 1
Acetic acid
64-19-7 56
Acetic anhydride
108-24-7 7
Acetone
67-64-1 3
Acetophenone
98-86-2 1
Acetylenic alcohol
* 1
Acetyltriethyl citrate
77-89-4 1
Acrylamide
79-06-1 2
Acrylamide copolymer
* 1
Acrylamide copolymer
38193-60-1 1
To compile this list of chemicals, Committee staff reviewed each Material Safety Data
35
Sheet provided to the Committee for hydraulic fracturing products used between 2005 and 2009.
Committee staff transcribed the names and CAS numbers as written in the MSDSs; as such, any
inaccuracies on this list reflect inaccuracies on the MSDSs themselves.
13
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Acrylate copolymer
* 1
Acrylic acid, 2-hydroxyethyl ester
818-61-1 1
Acrylic acid/2-acrylamido-methylpropylsulfonic acid copolymer 37350-42-8 1
Acrylic copolymer
403730-32-5 1
Acrylic polymers
* 1
Acrylic polymers
26006-22-4 2
Acyclic hydrocarbon blend
* 1
Adipic acid
124-04-9 6
Alcohol alk oxylate
* 5
Alcohol eth oxylates
* 2
Alcohols
* 9
Alcohols, C11-15-secondary, ethoxylated
68131-40-8 1
Alcohols, C12-14-secondary
126950-60-5 4
Alcohols, C12-14-secondary, ethoxylated
84133-50-6 19
Alcohols, C12-15, ethoxylated
68131-39-5 2
Alcohols, C12-16, ethoxylated
103331-86-8 1
Alcohols, C12-16, ethoxylated
68551-12-2 3
Alcohols, C14-15, ethoxylated
68951-67-7 5
Alcohols, C9-11-iso-, C10-rich, ethoxylated 78330-20-8 4
Alcohols, C9-C22
* 1
Aldehyde
* 4
Aldo l
107-89-1 1
Alfa-Alumina
* 5
Aliphatic acid
* 1
Aliphatic alcohol polyglycol ether
68015-67-8 1
Aliphatic amine derivative
120086-58-0 2
Alkaline bromide salts
* 2
Alkanes, C10-14
93924-07-3 2
Alkanes, C13-16-iso
68551-20-2 2
Alkanolamine
150-25-4 3
Alkanolamine chelate of zirconium alkoxide (Zirconium complex) 197980-53-3 4
Alkanolamine/aldehyde condensate
* 1
Alkenes
* 1
Alkenes, C10 alpha-
64743-02-8 3
Alkenes, C8
68411-00-7 2
Alkoxylated alcohols
* 1
Alko xylated amines
* 6
Alkoxylated phenol formaldehyde resin
63428-92-2 1
Alkyaryl sulfonate
* 1
Alkyl (C12-16) dimethyl benzyl ammonium chloride 68424-85-1 7
Alkyl (C6-C12) alcohol, ethoxylated
68439-45-2 2
Alkyl (C9-11) alcohol, ethoxylated
68439-46-3 1
Alk yl alkoxylate
* 9
Alkyl amine
* 2
14
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Alkyl amine blend in a metal salt solu tion
* 1
Alkyl aryl amine sulfonate
255043-08-04 1
Alkyl benzenesulfonic acid
68584-22-5 2
Alkyl esters
* 2
Alkyl hexanol
* 1
Alkyl ortho phosphate ester
* 1
Alkyl phosphate ester
* 3
Alkyl quaternary ammonium chlorides
* 4
Alkylaryl sulfonate
* 1
Alkylaryl sulphonic acid
27176-93-9 1
Alkylated quaternary chloride
* 5
Alkylbenzenesulfonic acid
* 1
Alkylethoammonium sulfates
* 1
Alkylphenol ethoxylates
* 1
Almandite and pyrope garnet
1302-62-1 1
Aluminium isopropoxide
555-31-7 1
Aluminum
7429-90-5 2
Aluminum chloride
* 3
Aluminum chloride
1327-41-9 2
Aluminum oxide (alpha-Alumina)
1344-28-1 24
Aluminum oxide silicate
12068-56-3 1
Aluminum silicate (mullite)
1302-76-7 38
Aluminum sulfate hydrate
10043-01-3 1
Amides, tallow, n-[3-(dimethylamino)propyl],n-oxides 68647-77-8 4
Amidoamine
* 1
Amine
* 7
Amine bisulfite
13427-63-9 1
Amine oxides
* 1
Amine phosphonate
* 3
Amine salt
* 2
Amines, C14-18; C16-18-unsaturated, alkyl, ethoxylated 68155-39-5 1
Amines, coco alkyl, acetate
61790-57-6 3
Amines, polyethylenepoly-, ethoxylated, phosphonomethylated 68966-36-9 1
Amines, tallow alkyl, ethoxylated
61791-26-2 2
Amino compounds
* 1
Amino methylene phosphonic acid salt
* 1
Amino trimethylene phosphonic acid
6419-19-8 2
Ammonia
7664-41-7 7
Ammonium acetate
631-61-8 4
Ammonium alcohol ether sulfate
68037-0 5-8 1
Ammonium bicarbonate
1066-33-7 1
Ammonium bifluoride (Ammonium hydrogen difluoride) 1341-49-7 10
Ammonium bisulfate
7783-20-2 3
Ammonium bisulfite
10192-30-0 15
15
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Ammonium C6-C10 alcohol ethoxysulfate 68187-17-7 4
Ammonium C8-C10 alkyl ether sulfate
68891-29-2 4
Ammonium chloride
12125-02-9 29
Ammonium fluoride
12125-01-8 9
Ammonium hydroxide
1336-21-6 4
Ammonium nitrate
6484-52-2 2
Ammonium persulfate (Diammonium peroxidisulfate) 7727-54-0 37
Ammonium salt
* 1
Ammonium salt of ethoxylated alcohol sulfate
* 1
Amorphous silica
99439-28-8 1
Amphoteric alkyl amine
61789-39-7 1
Anionic copolymer
* 3
Anionic polyacrylamide
* 1
Anionic polyacrylamide
25085-02-3 6
Anionic polyacrylamide copolymer
* 3
Anionic polymer
* 2
Anionic polymer in solution
* 1
Anionic polymer, sodium salt
9003-04-7 1
Anionic water-soluble polymer
* 2
Antifoulant
* 1
Antimonate salt
* 1
Antimony pentoxide
1314-60-9 2
Antimony potassium oxide
29638-69-5 4
Antimony trichloride
10025-91-9 2
a-organic surfactants
61790-29-8 1
Aromatic alcohol glycol ether
* 2
Aromatic aldehyde
* 2
Aromatic ketones
224635-63-6 2
Aromatic polyglycol ether
* 1
Barium sulfate
7727-43-7 3
Bauxite
1318-16-7 16
Bentonite
1302-78-9 2
Benzene
71-43-2 3
Benzene, C10-16, alkyl derivatives
68648-87-3 1
Benzenecarboperoxoic acid, 1,1-dimethylethyl ester 614-45-9 1
Benzenemethanaminium
3844-45-9 1
Benzenesulfonic acid, C10-16-alkyl derivs., potassium salts 68584-27-0 1
Benzoic acid
65-85-0 11
Benzyl chloride
100-44-7 8
Biocide component
* 3
Bis(1-methylethyl)naphthalenesulfonic acid, cyclohexylamine salt 68425-61-6 1
Bishexamethylenetriamine penta methylene phosphonic acid 35657-77-3 1
Bisphenol A/Epichlorohydrin resin
25068-38-6 5
Bisphenol A/Novolac epoxy resin
28906-96-9 1
16
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Borate
12280-03-4 2
Borate salts
* 5
Boric acid
10043-35-3 18
Boric acid, potassium salt
20786-6 0-1 1
Boric acid, sodium salt
1333-73-9 2
Boric oxide
1303-86-2 1
b-tricalcium phosphate
7758-87-4 1
Butanedioic acid
2373-38-8 4
Butanol
71-36-3 3
Butyl glycidyl ether
2426-08-6 5
Butyl lactate
138-22-7 4
C10-C16 ethoxylated alco hol
68002-97-1 4
C-11 to C-14 n-alkanes, mixed
* 1
C12-C14 alcohol, ethoxylated
68439-5 0-9 3
Calcium carbonate
471-34-1 1
Calcium carbonate (Limestone)
1317-65-3 9
Calcium chloride
10043-52-4 17
Calcium chloride, dihydrate
10035-04-8 1
Calcium fluoride
7789-75-5 2
Calcium hydroxide
1305-62-0 9
Calcium hypochlorite
7778-54-3 1
Calcium oxide
1305-78-8 6
Calcium peroxide
1305-79-9 5
Carbohydrates
* 3
Carbon dioxide
124-38-9 4
Carboxymethyl guar gum, sodium salt
39346-76-4 7
Carboxymethyl hydroxypropyl guar
68130-15-4 11
Cellophane
9005-81-6 2
Cellulase
9012-54-8 7
Cellulase enzyme
* 1
Cellulose
9004-34-6 1
Cellulose derivative
* 2
Chloromethylnaphthalene quinoline quaternary amine 15619-48-4 3
Chlorous io n solution
* 2
Choline chloride
67-48-1 3
Chromates
* 1
Chromium (iii) acetate
1066-30-4 1
Cinnamaldehyde (3-phenyl-2-propenal)
104-55-2 5
Citric acid (2-hydroxy-1,2,3 propanetricarboxylic acid) 77-92-9 29
Citrus terpenes
94266-47-4 11
Coal, granular
50815-10-6 1
Cobalt acetate
71-48-7 1
Cocaidopropyl betaine
61789-40-0 2
Cocamidopropylamine oxide
68155-09-9 1
17
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Coco bis-(2-hydroxyethyl) amine oxide
61791-47-7 1
Cocoamidopropyl betaine
70851-07-9 1
Cocomidopropyl dimethylamine
68140-01-2 1
Coconut fatty acid diethanolamide
68603-42-9 1
Collagen (Gelatin)
9000-70-8 6
Complex alkylaryl polyo-ester
* 1
Complex aluminum salt
* 2
Complex organ ometallic salt
* 2
Complex substituted keto-amine
143106-84-7 1
Complex substituted keto-amine hydrochloride
* 1
Copolymer of acrylamide and sodium acrylate 25987-30-8 1
Copper
7440-50-8 1
Copper iodide
7681-65-4 1
Copper sulfate
7758-98-7 3
Corundum (Aluminum oxide)
1302-74-5 48
Crotonaldehyde
123-73-9 1
Crystalline silica – cristobalite
14464-46-1 44
Crystalline silica – quartz (SiO2)
14808-60-7 207
Crystalline silica, tridymite
15468-32-3 2
Cumene
98-82-8 6
Cupric chloride
7447-39-4 10
Cupric chloride dihydrate
10125-13-0 7
Cuprous chloride
7758-89-6 1
Cured acrylic resin
* 7
Cured resin
* 4
Cured silicone rubber-po lydimethylsiloxane 63148-62-9 1
Cured urethane resin
* 3
Cyclic alkanes
* 1
Cyclohexane
110-82-7 1
Cyclohexanone
108-94-1 1
Decanol
112-30-1 2
Decyl-dimethyl amine oxide
2605-79-0 4
Dextrose monohydrate
50-99-7 1
D-Glucitol
50-70-4 1
Di (2-ethylhexyl) phthalate
117-81-7 3
Di (ethylene glycol) ethyl ether acetate
112-15-2 4
Diatomaceous earth
61790-53-2 3
Diatomaceous earth, calcined
91053-39-3 7
Dibromoacetonitrile
3252-43-5 1
Dibutylaminoethanol (2-dibutylaminoethanol) 102-81-8 4
Di-calcium silicate
10034-77-2 1
Dicarboxylic acid
* 1
Didecyl dimethyl ammonium chloride
7173-51-5 1
Diesel
* 1
18
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Diesel
68334-30-5 3
Diesel
68476-30-2 4
Diesel
68476-34-6 43
Diethanolamine (2,2-iminodiethanol)
111-42-2 14
Diethylbenzene
25340-17-4 1
Diethylene glycol
111-46-6 8
Diethylene glycol monomethyl ether
111-77-3 4
Diethylene triaminepenta (methylene phosphonic acid) 15827-60-8 1
Diethylenetriamine
111-40-0 2
Diethylenetriamine, tall oil fatty acids reaction product 61790-69-0 1
Diisopropylnaphthalenesulfonic acid
28757-00-8 2
Dimethyl formamide
68-12-2 5
Dimethyl glutarate
1119-40-0 1
Dimeth yl silico ne
* 2
Dioctyl sodium sulfosuccinate
577-11-7 1
Dipropylene glycol
25265-71-8 1
Dipropylene glycol monomethyl ether (2-methoxymethylethoxy propanol) 34590-94-8 12
Di-secondary-butylphenol
53964-94-6 3
Disodium EDTA
139-33-3 1
Disodium ethylenediaminediacetate
38011-25-5 1
Disodium ethylenediaminetetraacetate dihydrate 6381-92-6 1
Disodium octaborate tetrahydrate
12008-41-2 1
Dispersing agent
* 1
d-Limonene
5989-27-5 11
Dodecyl alcohol ammonium sulfate
32612-48-9 2
Dodecylbenzene sulfonic acid
27176-87-0 14
Dodecylbenzene sulfonic acid salts
42615-29-2 2
Dodecylbenzene sulfonic acid salts
68648-81-7 7
Dodecylbenzene sulfonic acid salts
90218-35-2 1
Dodecylbenzenesulfonate isopropanolamine 42504-46-1 1
Dodecylbenzenesulfonic acid, monoethanolamine salt 26836-07-7 1
Dodecylbenzenesulphonic acid, morpholine salt 12068-08-5 1
EDTA/Copper chelate
* 2
EO-C7-9-iso-, C8-rich alcohols
78330-19-5 5
Epichlorohydrin
25085-99-8 5
Epoxy resin
* 5
Erucic amidopropyl dimethyl betaine
149879-98-1 3
Erythorbic acid
89-65-6 2
Essential oils
* 6
Ethanaminium, n,n,n-trimethyl-2-[(1-oxo-2-propenyl)oxy]-,chloride, polymer with
2-propenamide
69418-26-4 4
Ethanol (Ethyl alcohol)
64-17-5 36
Ethanol, 2-(hydroxymethylamino)-
34375-28-5 1
Ethanol, 2, 2′-(Octadecylamino) bis-
10213-78-2 1
19
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Ethanoldiglycine disodium salt
135-37-5 1
Ether salt
25446-78-0 2
Ethoxylated 4-nonylphenol (Nonyl phenol ethoxylate) 26027-38-3 9
Ethoxylated alcohol
104780-82-7 1
Ethoxylated alcohol
78330-21-9 2
Ethoxylated alcohols
* 3
Ethoxylated alkyl amines
* 1
Ethoxylated amine
* 1
Ethoxylated amines
61791-44-4 1
Ethoxylated fatty acid ester
* 1
Ethoxylated nonionic surfactant
* 1
Ethoxylated nonyl phenol
* 8
Ethoxylated nonyl phenol
68412-54-4 10
Ethoxylated nonyl phenol
9016-45-9 38
Ethoxylated octyl phenol
68987-90-6 1
Ethoxylated octyl phenol
9002-93-1 1
Ethoxylated octyl phenol
9036-19-5 3
Ethoxylated oleyl amine
13127-82-7 2
Ethoxylated oleyl amine
26635-93-8 1
Ethoxylated sorbitol esters
* 1
Ethoxylated tridecyl alcohol phosphate
9046-01-9 2
Ethoxylated undecyl alcohol
127036-24-2 2
Ethyl acetate
141-78-6 4
Ethyl acetoacetate
141-97-9 1
Ethyl octynol (1-octyn-3-ol,4-ethyl-)
5877-42-9 5
Ethylbenzene
100-41-4 28
Ethylene glycol (1,2-ethanediol)
107-21-1 119
Ethylene glycol monobutyl ether (2-butoxyethanol) 111-76-2 126
Ethylene oxide
75-21-8 1
Ethylene oxide-nonylphenol polymer
* 1
Ethylenediaminetetraacetic acid
60-00-4 1
Ethylene-vinyl acetate copolymer
24937-78-8 1
Ethylhexanol (2-ethylhexanol)
104-76-7 18
Fatty acid ester
* 1
Fatty acid, tall oil, hexa esters with sorbitol, ethoxylated 61790-90-7 1
Fatty acids
* 1
Fatty alcohol alkoxylate
* 1
Fatty alkyl amine salt
* 1
Fatty amine carboxylates
* 1
Fatty quaternary ammonium chloride
61789-68-2 1
Ferric chloride
7705-08-0 3
Ferric sulfate
10028-22-5 7
Ferrous sulfate, heptahydrate
7782-63-0 4
Fluoroaliphatic polymeric esters
* 1
20
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Formaldehyde
50-00-0 12
Formaldehyde polymer
* 2
Formaldehyde, polymer with 4-(1,1-dimethyl)phenol, methyloxirane and oxirane 30704-64-4 3
Formaldehyde, polymer with 4-nonylphenol and oxirane 30846-35-6 1
Formaldehyde, polymer with ammonia and phenol 35297-54-2 2
Formamide
75-12-7 5
Formic acid
64-18-6 24
Fumaric acid
110-17-8 8
Furfural
98-01-1 1
Furfuryl alcohol
98-00-0 3
Glass fiber
65997-17-3 3
Gluconic acid
526-95-4 1
Glutaraldehyde
111-30-8 20
Glycerol (1,2,3-Propanetriol, Glycerine)
56-81-5 16
Glycol ethers
* 9
Glycol ethers
9004-77-7 4
Glyoxal
107-22-2 3
Glyoxylic acid
298-12-4 1
Guar gum
9000-30-0 41
Guar gum derivative
* 12
Haloalkyl heteropolycycle salt
* 6
Heavy aromatic distillate
68132-00-3 1
Heavy aromatic petroleum naphtha
64742-94-5 45
Heavy catalytic reformed petroleum naphtha 64741-68-0 10
Hematite
* 5
Hemicellulase
9025-56-3 2
Hexahydro-1,3,5-tris(2-hydroxyethyl)-s-triazine (Triazine) 4719-04-4 4
Hexamethylenetetramine
100-97-0 37
Hexanediamine
124-09-4 1
Hexanes
* 1
Hexylene glycol
107-41-5 5
Hydrated aluminum silicate
1332-58-7 4
Hydrocarbon mixtures
8002-05-9 1
Hydrocarbons
* 3
Hydrodesulfurized kerosine (petroleum)
64742-81-0 3
Hydrodesulfurized light catalytic cracked distillate (petroleum) 68333-25-5 1
Hydrodesulfurized middle distillate (petroleum) 64742-80-9 1
Hydrogen chloride (Hydrochloric acid)
7647-01-0 42
Hydrogen fluoride (Hydrofluoric acid)
7664-39-3 2
Hydrogen peroxide
7722-84-1 4
Hydrogen sulfide
7783-06-4 1
Hydrotreated and hydrocracked base oil
* 2
Hydrotreated heavy naphthenic distillate
64742-52-5 3
Hydrotreated heavy paraffinic petroleum distillates 64742-54-7 1
21
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Hydrotreated heavy petroleum naphtha
64742-48-9 7
Hydrotreated light petroleum distillates
64742-47-8 89
Hydrotreated middle petroleum distillates
64742-46-7 3
Hydroxyacetic acid (Glycolic acid)
79-14-1 6
Hydroxyethylcellu lose
9004-62-0 1
Hydroxyethylethylenediaminetriacetic acid, trisodium salt 139-89-9 1
Hydroxylamine hydrochloride
5470-11-1 1
Hydroxypropyl guar gum
39421-75-5 2
Hydroxysultaine
* 1
Inner salt of alkyl amines
* 2
Inorganic borate
* 3
Inorganic particulate
* 1
Inorganic salt
* 1
Inorganic salt
533-96-0 1
Inorganic salt
7446-70-0 1
Instant coffee purchased off the shelf
* 1
Inulin, carboxymethyl ether, sodium salt 430439-54-6 1
Iron oxide
1332-37-2 2
Iron oxide (Ferric oxide)
1309-37-1 18
Iso amyl alcohol
123-51-3 1
Iso-alkanes/n-alkanes
* 10
Isobutanol (Isobutyl alcoho l)
78-83-1 4
Isomeric aromatic ammonium salt
* 1
Isooctanol
26952-21-6 1
Isooctyl alcohol
68526-88-0 1
Isooctyl alcohol bottoms
68526-88-5 1
Isopropanol (Isopropyl alcohol, Propan-2-ol)
67-6 3-0 274
Isopropylamine
75-31-0 1
Isotridecanol, ethoxylated
9043-30-5 1
Kerosene
8008-20-6 13
Lactic acid
10326-41-7 1
Lactic acid
50-21-5 1
L-Dilactide
4511-42-6 1
Lead
7439-92-1 1
Light aromatic solvent naphtha
64742-95-6 11
Light catalytic cracked petroleum distillates 64741-59-9 1
Light naphtha distillate, hydrotreated
64742-53-6 1
Low toxicity base oils
* 1
Maghemite
* 2
Magnesium carbonate
546-93-0 1
Magnesium chloride
7786-30-3 4
Magnesium hydroxide
1309-42-8 4
Magnesium iron silicate
1317-71-1 3
Magnesium nitrate
10377-60-3 5
22
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Magnesium oxide
1309-48-4 18
Magnesium peroxide
1335-26-8 2
Magnesium peroxide
14452-57-4 4
Magnesium phosphide
12057-74-8 1
Magnesium silicate
1343-88-0 3
Magnesium silicate hydrate (talc)
14807-96-6 2
Magnetite
* 3
Medium aliphatic solvent petroleum naphtha 64742-88-7 10
Metal salt
* 2
Metal salt solution
* 1
Methanol (Methyl alcohol)
67-56-1 342
Methyl isobutyl carbinol (Methyl amyl alcohol) 108-11-2 3
Methyl salicylate
119-36-8 6
Methyl vinyl ketone
78-94-4 2
Methylcyclohexane
108-87-2 1
Mica
12001-26-2 3
Microcrystalline silica
1317-95-9 1
Mineral
* 1
Mineral Filler
* 1
Mineral spirits (stodd ard solvent)
8052-41-3 2
Mixed titanium ortho ester co mplexes
* 1
Modified alkane
* 1
Modified cycloaliphatic amine adduct
* 3
Modified lignosulfonate
* 1
Monoethanolamine (Ethanolamine)
141-43-5 17
Monoethanolamine borate
26038-87-9 1
Morpholine
110-91-8 2
Mullite
1302-93-8 55
n,n-dibutylthiourea
109-46-6 1
N,N-dimethyl-1-octadecanamine-HCl
* 1
N,N-dimethyloctadecylamine
124-28-7 3
N,N-dimethyloctadecylamine hydrochloride 1613-17-8 2
n,n'-Methylenebisacrylamide
110-26-9 1
n-alkyl dimethyl benzyl ammonium chloride
139-08-2 1
Naphthalene
91-20-3 44
Naphthalene derivatives
* 1
Naphthalenesulphonic acid, bis (1-methylethyl)-methyl derivatives 99811-86-6 1
Natural asphalt
12002-4 3-6 1
n-cocoamidopropyl-n,n-dimethyl-n-2-hydroxypropylsulfobetaine 68139-30-0 1
n-dodecyl-2-pyrrolidone
2687-96-9 1
N-heptane
142-82-5 1
Nickel sulfate hexahydrate
10101-97-0 2
Nitrilotriacetamide
4862-18-4 4
Nitrilotriacetic acid
139-13-9 6
23
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Nitrilotriacetonitrile
7327-60-8 3
Nitrogen
7727-37-9 9
n-Methylpyrrolidone
872-50-4 1
Nonane, all isomers
* 1
Non-hazardous salt
* 1
Nonionic surfactant
* 1
Nonyl phenol ethoxylate
* 2
Nonyl phenol ethoxylate
9016-45-6 2
Nonyl phenol ethoxylate
9018-45-9 1
Nonylphenol
25154-52-3 1
Nonylphenol, ethoxylated and sulfated
9081-17-8 1
N-propyl zirconate
* 1
N-tallowalkyltrimethylenediamines
* 1
Nuisance particulates
* 2
Nylon fibers
25038-54-4 2
Octanol
111-87-5 2
Octyltrimethylammonium bromide
57-09-0 1
Olefinic sulfonate
* 1
Olefins
* 1
Organic acid salt
* 3
Organic acids
* 1
Organic phosphonate
* 1
Organic phosphonate salts
* 1
Organic phosphonic acid salts
* 6
Organic salt
* 1
Organic sulfur compound
* 2
Organ ic titanate
* 2
Organ iophilic clay
* 2
Organo-metallic ammonium complex
* 1
Other inorganic compounds
* 1
Oxirane, methyl-, polymer with oxirane, mono-C10-16-alkyl ethers, phosphates 68649-29-6 1
Oxyalkylated alcohol
* 6
Oxyalkylated alcohols
228414-35-5 1
Oxyalkylated alkyl alcohol
* 1
Oxyalkylated alkylphenol
* 1
Oxyalkylated fatty acid
* 2
Oxyalkylated phenol
* 1
Oxyalkylated polyamine
* 1
Oxylated alcohol
* 1
Paraffin wax
8002-74-2 1
Paraffinic naphthenic solvent
* 1
Paraffinic solvent
* 5
Paraffins
* 1
Perlite
93763-70-3 1
24
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Petroleum distillates
* 26
Petroleum distillates
64742-65-0 1
Petroleum distillates
64742-97-5 1
Petroleum distillates
68477-31-6 3
Petroleum gas oils
* 1
Petroleum gas oils
64741-43-1 1
Phenol
108-95-2 5
Phenol-formaldehyde resin
9003-35-4 32
Phosphate ester
* 6
Phosphate esters of alkyl phenyl ethoxylate 68412-53-3 1
Phosphine
* 1
Phosphonic acid
* 1
Phosphonic acid
129828-36 -0 1
Phosphonic acid
13598-36-2 3
Phosphonic acid (dimethlamino(methylene)) 29712-30-9 1
Phosphonic acid, [nitrilotris(methylene)]tris-, pentasodium salt 2235-43-0 1
Phosphoric acid
7664-38-2 7
Phosphoric acid ammonium salt
* 1
Phosphoric acid, mixed decyl, octyl and ethyl esters 68412-60-2 3
Phosphorous acid
10294-56-1 1
Phthalic anhydride
85-44-9 2
Pine oil
8002-09-3 5
Plasticizer
* 1
Poly(oxy-1,2-ethaned iyl)
24938-91-8 1
Poly(oxy-1,2-ethanediyl), alph a-(4-nonylphenyl)-omega-hydroxy-, branched
(Nonylphenol ethoxylate)
127087-87-0 3
Poly(oxy-1,2-ethanediyl), alpha-hydro-omega-hydroxy 65545-80-4 1
Poly(oxy-1,2-ethanediyl), alpha-sulfo-omega-(hexyloxy)-, ammonium salt 63428-86-4 3
Poly(oxy-1,2-ethanediyl),a-(nonylphenyl)-w-hydroxy-, phosphate 51811-79-1 1
Poly-(oxy-1,2-ethanediyl)-alpha-undecyl-omega-hydroxy 34398-01-1 6
Poly(sodium-p-styrenesulfonate)
25704-18-1 1
Poly(vinyl alcohol)
25213-24-5 2
Polyacrylamides
9003-05-8 2
Polyacrylamides
* 1
Polyacrylate
* 1
Polyamine
* 2
Polyanionic cellulose
* 2
Polyepichlorohydrin, trimethylamine quaternized 51838-31-4 1
Polyetheramine
9046-10-0 3
Polyether-modified trisiloxane
27306-78-1 1
Polyethylene glycol
25322-68-3 20
Polyethylene glycol ester with tall oil fatty acid 9005-02-1 1
Polyethylene polyammonium salt
68603-67-8 2
Polyethylene-polypropylene glycol
9003-11-6 5
25
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Polylactide resin
* 3
Polyoxyalkylenes
* 1
Polyoxyethylene castor oil
61791-12-6 1
Polyphosphoric acid, esters with triethanolamine, sodium salts 68131-72-6 1
Polypropylene glycol
25322-69-4 1
Polysaccharide
* 20
Polyvinyl alcohol
* 1
Polyvinyl alcohol
9002-89-5 2
Polyvinyl alcohol/polyvinylacetate copolymer
* 1
Potassium acetate
127-08-2 1
Potassium carbonate
584-08-7 12
Potassium chloride
7447-40-7 29
Potassium formate
590-29-4 3
Potassium hydroxide
1310-58-3 25
Potassium iodide
7681-11-0 6
Potassium metaborate
13709-94-9 3
Potassium metaborate
16481-66-6 3
Potassium oxide
12136-45-7 1
Potassium pentaborate
* 1
Potassium persulfate
7727-21-1 9
Propanol (Propyl alcohol)
71-23-8 18
Propanol, [2(2-methoxy-methylethoxy) methylethoxyl] 20324-33-8 1
Propargyl alcohol (2-propyn-1-ol)
107-19-7 46
Propylene carbonate (1,3-dioxolan-2-one, methyl-) 108-32-7 2
Propylene glycol (1,2-propanediol)
57-55-6 18
Propylene oxide
75-5 6-9 1
Propylene pentamer
15220-87-8 1
p-Xylene
106-42-3 1
Pyridinium, 1-(phenylmethyl)-, ethyl methyl derivatives, chlorides 68909-18-2 9
Pyrogenic silica
112945-52-5 3
Quaternary amine compounds
* 3
Quaternary amine compounds
61789-18-2 1
Quaternary ammonium compounds
* 9
Quaternary ammonium compounds
19277-88-4 1
Quaternary ammonium compounds
68989-00-4 1
Quaternary ammonium compounds
8030-78-2 1
Quaternary ammonium compounds, dicoco alkyldimethyl, chlorides 61789-77-3 2
Quaternary ammonium salts
* 2
Quaternary compound
* 1
Quaternary salt
* 2
Quaternized alkyl nitrogenated compound
68391-11-7 2
Rafinnates (petroleum), sorption process
64741-85-1 2
Residues (petroleum), catalytic reformer fractionator 64741-67-9 10
Resin
8050-09-7 2
26
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Rutile
1317-80-2 2
Salt of phosphate ester
* 3
Salt of phosphono-methylated diamine
* 1
Salts of oxyalkylated fatty amines
68551-33-7 1
Secondary alcohol
* 7
Silica (Silicon dioxid e)
7631-86-9 47
Silica, amorphous
* 3
Silica, amorphous precipitated
67762-90-7 1
Silicon carboxylate
681-84-5 1
Silicon dioxide (Fused silica)
60676-86-0 7
Silicone emulsion
* 1
Sodium (C14-16) olefin sulfonate
68439-57-6 4
Sodium 2-ethylhexyl sulfate
126-92-1 1
Sodium acetate
127-09-3 6
Sodium acid pyrophosphate
7758-16-9 5
Sodium alkyl diphenyl oxide sulfonate
28519-02-0 1
Sodium aluminate
1302-42-7 1
Sodium aluminum phosphate
7785-88-8 1
Sodium bicarbonate (Sodium hydrogen carbonate) 144-55-8 10
Sodium bisulfite
7631-90-5 6
Sodium bromate
7789-38-0 10
Sodium bromide
7647-15-6 1
Sodium carbonate
497-19-8 14
Sodium chlorate
7775-09-9 1
Sodium chloride
7647-14-5 48
Sodium chlorite
7758-19-2 8
Sodium cocaminopropionate
68608-68-4 2
Sodium diacetate
126-96-5 2
Sodium erythorbate
6381-77-7 4
Sodium glycolate
2836-32-0 2
Sodium hydroxide (Caustic soda)
1310-73-2 80
Sodium hypochlorite
7681-52-9 14
Sodium lauryl-ether sulfate
68891-38-3 3
Sodium metabisulfite
7681-57-4 1
Sodium metaborate
7775-19-1 2
Sodium metaborate tetrahydrate
35585-58-1 6
Sodium metasilicate, anhydrous
6834-92-0 2
Sodium nitrite
7632-00-0 1
Sodium oxide (Na2O)
1313-59-3 1
Sodium perborate
1113-47-9 1
Sodium perborate
7632-04-4 1
Sodium perborate tetrahydrate
10486-00-7 4
Sodium persulfate
7775-27-1 6
Sodium phosphate
* 2
27
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Sodium polyphosphate
68915-31-1 1
Sodium salicylate
54-21-7 1
Sodium silicate
1344-09-8 2
Sodium sulfate
7757-82-6 7
Sodium tetraborate
1330-43-4 7
Sodium tetraborate decahydrate
1303-96-4 10
Sodium thiosulfate
7772-98-7 10
Sodium thiosulfate pentahydrate
10102-17-7 3
Sodium trichloroacetate
650-51-1 1
Sodium tripolyphosphate
7758-29-4 2
Sodium xylene sulfonate
1300-72-7 3
Sodium zirconium lactate
174206-15-6 1
Solvent refined heavy naphthen ic petroleum distillates 64741-96-4 1
Sorbitan monooleate
1338-43-8 1
Stabilized aqueous chlorine dioxide
10049-04-4 1
Stannous chloride
7772-99-8 1
Stannous chloride dihydrate
10025-69-1 6
Starch
9005-25-8 5
Steam cracked distillate, cyclodiene dimer, dicyclo pentadiene polymer 68131-87-3 1
Steam-cracked petroleum d istillates
64742-91-2 6
Straight run middle petroleum distillates
64741-44-2 5
Substituted alcohol
* 2
Substituted alkene
* 1
Substituted alkylamine
* 2
Sucrose
57-50-1 1
Sulfamic acid
5329-14-6 6
Sulfate
* 1
Sulfonate acids
* 1
Sulfonate surfactants
* 1
Sulfonic acid salts
* 1
Sulfonic acids, petroleum
61789-85-3 1
Sulfur compound
* 1
Sulfuric acid
7664-93-9 9
Sulfuric acid, monodecyl ester, sodium salt
142-87-0 2
Sulfuric acid, monooctyl ester, sodium salt
142-31-4 2
Surfactants
* 13
Sweetened middle distillate
64741-86-2 1
Synthetic organic polymer
9051-89-2 2
Tall oil (Fatty acids)
61790-12-3 4
Tall oil, compound with diethanolamine
68092-28-4 1
Tallow soap
* 2
Tar bases, quinoline derivatives, benzyl chloride-quaternized 72480-70-7 5
Tergitol
68439-51-0 1
Terpene hydrocarbon byproducts
68956-5 6-9 3
28
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Terpenes
* 1
Terpenes and terpenoids, sweet orange-oil 68647-72-3 2
Terpineol
8000-41-7 1
Tert-butyl hydroperoxide
75-91-2 6
Tetra-calcium-alumino-ferrite
12068-35-8 1
Tetraethylene glycol
112-60-7 1
Tetraethylenepentamine
112-57-2 2
Tetrahydro-3,5-dimethyl-2H-1,3,5-thiadiazine-2-thione (Dazomet) 533-74-4 13
Tetrakis (hydroxymethyl) phosphonium sulfate 55566-30-8 12
Tetramethyl ammonium chloride
75-57-0 14
Tetrasodium 1 -hydroxyethylidene-1,1-diphosphonic acid 3794-83-0 1
Tetrasodium ethylenediaminetetraacetate
64-02-8 10
Thiocyanate sodium
540-72-7 1
Thioglycolic acid
68-11-1 6
Thiourea
62-56-6 9
Thiourea polymer
68527-49-1 3
Titanium complex
* 1
Titanium oxide
13463-67-7 19
Titanium, isopropoxy (triethanolaminate)
74665-17-1 2
Toluene
108-88-3 29
Treated ammonium chloride (with anti-caking agent a or b) 12125-02-9 1
Tributyl tetradecyl phosphonium chloride
81741-28-8 5
Tri-calcium silicate
12168-85-3 1
Tridecyl alcoho l
112-70-9 1
Triethanolamine (2,2,2-nitrilotriethanol)
102-71-6 21
Triethanolamine polyphosphate ester
68131-71-5 3
Triethanolamine titanate
36673-16-2 1
Triethanolamine zirconate
101033-44-7 6
Triethanolamine zirconium chelate
* 1
Triethyl citrate
77-93-0 1
Triethyl phosphate
78-40-0 1
Triethylene glycol
112-27-6 3
Triisopropanolamine
122-20-3 5
Trimethylammonium chloride
593-81-7 1
Trimethylbenzene
25551-13-7 5
Trimethyloctadecylammonium (1-octadecanaminium, N,N,N-trimethyl-, chloride) 112-03-8 6
Tris(hydroxymethyl)aminomethane
77-86-1 1
Trisodium ethylenediaminetetraacetate
150-38-9 1
Trisodium ethylenediaminetriacetate
19019-43-3 1
Trisodium nitrilotriacetate
18662-53-8 8
Trisodium nitrilotriacetate (Nitrilotriacetic acid, trisodium salt monohydrate) 5064-31-3 9
Trisodium ortho phosphate
7601-54-9 1
Trisodium phosphate dodecahydrate
10101-89-0 1
Ulexite
1319-33-1 1
29
Chemical
No. of
Abstract
Products
Service
Containing
Chemical Component
Number
Chemical
Urea
57-13-6 3
Wall material
* 1
Walnut hu lls
* 2
White mineral oil
8042-47-5 8
Xanthan gum
11138-66-2 6
Xylene
1330-20-7 44
Zinc chloride
7646-85-7 1
Zinc oxide
1314-13-2 2
Zirconium complex
* 10
Zirconium dichloride oxide
7699-43-6 1
Zirconium oxide sulfate
62010-10-0 2
Zirconium sodium hydroxy lactate complex (Sodium zirconium lactate) 113184-20-6 2
*
Components marked with an asterisk appeared on at least one MSDS without an identifying
CAS number. The MSDSs in these cases marked the CAS as proprietary, noted that the CAS was
not available, or left the CAS field blank. Components marked with an asterisk may be
duplicative of other components on this list, but Committee staff have no way of identifying such
duplicates without the identifying CAS number.
30