Europaudvalget 2022-23 (2. samling)
EUU Alm.del
Offentligt
2698364_0001.png
Brussels, xx October 2021
To Whom it May Concern:
3M Corporation
appreciates the opportunity to participate in the
2
nd
Stakeholder Consultation on a Restriction for PFAS.
1
We also appreciate the opportunity to
comment on the
for the various PFAS use categories.
st
3M has been an active participant in the stakeholder consultations, from the First
Call
for Evidence in July 2020 through present day. 3M has submitted twelve responses in the 1
st
Call for Evidence in July 2020 (see Table 1) as well as thirteen use-specific studies from
October 2020 through May 2021 (see Table 2). In October 2021, 3M provided responses to
eleven of the categories during the 2
nd
Call for Evidence (see Table 3). A summary of
submissions is listed below. These submissions are readily available and may be re-submitted
at the request of the authorities.
Table 1:
3M submitted 12 individual responses during the 1st Call for Evidence (July
2020), providing information according to individual product lines and with inputs from
various 3M reporting units:
1)
3M Fluorinert, 3M Performance Chemicals and 3M-branded fluids
(by 3M
Transportation & Electronics)
2)
3M Novec-branded fluids
(by 3M Transportation & Electronics)
3)
3M Fluoropolymers: Fluoroplastics Dispersions
(by 3M Transportation & Electronics)
4)
3M Fluoropolymers: Solid Fluoroplastics
(by 3M Transportation & Electronics)
5)
3M Fluoropolymers: Fluoroelastomers
(by 3M Transportation & Electronics)
6)
3M Fluoropolymers: Polymer Processing Additives
(by 3M Transportation &
Electronics)
7)
3M Specialty Chemicals
(by 3M Transportation & Electronics)
8)
3M PFAS-enabled products: PFAS for Product Release Liners
(by 3M Healthcare, 3M
Safety & Industrial, and 3M Consumer)
9)
3M PFAS-enabled products: PBSF-Enabled Fluorosurfactants - Acrylic Foam Tapes
(by 3M Safety & Industrial and 3M Transportation & Electronics)
10)
3M PFAS-enabled products: PBSF-Enabled Fluorosurfactants
(by 3M Healthcare, 3M
Safety & Industrial, 3M Transportation & Electronics, and 3M Consumer)
11)
3M PFAS-enabled products: PBSF-Enabled Coatings
(by 3M Safety & Industrial, 3M
Transportation & Electronics, and 3M Consumer)
12)
3M PFAS-enabled products: Other PFAS and PFAS Mixture Based Coatings
(by 3M
Healthcare, 3M Safety & Industrial, and 3M Transportation & Electronics)
Table 2:
3M provided information to 13 use-specific studies conducted by the five
countries (and respective consultants) between October 2020 and May 2021:
1. 3M Response to de Milieutafel on PFAS in Medical Devices and Pharmaceuticals
2. 3M Response to RPA on PFAS Manufacturing
3. 3M Response to Exponent on PFAS in Data center Immersion Cooling
4. 3M Response to Exponent on PFAS & F-gases
1
Survey Powered by Webropol: 2nd Stakeholder Consultation on a Restriction for PFAS (webropolsurveys.com)
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5. 3M Response to Exponent on PFAS Fire Suppression Manufacturers and Users
6. 3M Response to Exponent on PFAS in Food and Feed Equipment
7. 3M Response to Exponent on PFAS in Kitchenware
8. 3M Response to Exponent on PFAS in Packaging Food and Non-Food
9. 3M Response to HaskoningDHV on PFAS in Electronics and Energy Industry
10. 3M Response to BAUA on PFAS in Transport and Lubricants & Greases
11. 3M Response to Wood on PFAS in Textiles (for PPE and Medical Device products)
12. 3M Response to Wood on PFAS in Petroleum and Mining Sector
13. 3M Response to Wood on PFAS in Construction products
Table 3:
3M provided response to Section A-E (as applicable) via the online portal for the
below 11 category-specific components of the questionnaire on 17 October 2021. 3M
1. 3M Response to TULAC
2. 3M Response to Medical Devices
3. 3M Response to Electronics and Energy
4. 3M Response to Construction
5. 3M Response to PFAS Manufacturing
6. 3M Response to Transportation
7. 3M Response to Lubricants
8. 3M Response to Waste
9. 3M Response to Food Contact
10. 3M Response to Manufacturing
11. 3M Response to F-Gas
Based on 3M
s, we would like to highlight data gaps in the investigation
report summaries, including missing uses and applications, missing PFAS substances, or
wrongly stated information.
The information below serves as a 3M-only data-gap analysis for the authorities regarding the
accuracy and completeness of these reports based on the information provided. When
developing the PFAS restriction dossiers, 3M would ask that the authorities consider
corrections to the reports. 3M recognizes the significant effort and complexity of
consolidating many responders input and would welcome the opportunity to further discuss
3M believes regulatory decisions should be grounded in sound science. 3M remains
committed to sharing all available and relevant information to help inform the understanding
of the five countries preparing the PFAS restriction proposal.
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DATA GAP ANALYSIS
LUBRICANTS:
:
T
-03-1) should be added to the
list of carrier solvents.
The products
Engineered Fluid (CAS# 163702-08-7/163702-07-
6) and
Engineered Fluid (CAS# 63702-06-5/163702-05-4) also
used as carrier solvents are included in the report.
The summary report section 4 Emissions, Table 3 estimates that 35 tonnes of PTFE
(Micropowder) are emitted to air annually and 31 tonnes to water. As PTFE is not
volatile and insoluble in water, it is unclear how the report could reach this conclusion.
Similar partitioning is applied to PTFE (granulates) and PFPE which raised comparable
questions regarding the conclusion of this section.
Section 4.1, Table 5 notes that the justification for application of emission factors
unknown from our experience and appears not be a reasonable assumption. The
reasonable assumption due to the lack of volatility of these substances and lack of
water solubility. Spills or leaks in filling are manageable and are unlikely to result in
uncontrolled emissions to air or water as noted in the table.
The lack of volatility and water solubility of most of the higher molecular weight
backbone fluoropolymers leads to emissions that are overstated and appear to
partition too heavily to air and water.
PETROLEUM AND MINING
:
The summary report does not include use of PFAS in the Chemical Processing
Industries (CPI) which also extensively use PFAS, and particularly backbone
fluoropolymers (such as Fluoroplastics or Fluoroelastomers) in equipment like uses in
Petroleum and Mining such as seals, linings and coatings.
use, emissions and
liners, valves, O-rings, gaskets, and packer elements in the petroleum industry (Table
2.2).
CONSTRUCTION:
:
The use of foam blowing additives in the production of energy efficient building
material is missing from the current report.
188 Foam Blowing Additive (CAS #3709-71-5) in this application.
-
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Structural Glazing is missing from the current report. PBSF-enabled tapes are used to
attach glass panels to metal frames in curtain wall systems, commercial windows and
doors, skylight and canopy systems replacing commonly used mechanical fasteners,
gaskets and structural silicone sealants. They bond with excellent dynamic strength to
replace conventional wet glazing and resist to environmental conditions such as UV,
moisture, heat, and cold.
PBSF-enabled Architectural Panel Tapes are missing in the current report. They are
used for many applications in the construction industry, including the manufacture of
architectural panels for curtain walls, exterior building cladding and interior panel and
trim attachment. In many situations, they replace liquid adhesives, sealants, welds and
mechanical fasteners. They provide immediate handling strength during the fabrication
process and do not shrink after curing, like with some liquid applied sealants. This
shrinkage can result in isolated panel stress that may be visible on the exterior face of
the architectural panel.
Window films are missing from the current report. PBSF-enabled coatings are used in
window film applications for construction because these films deliver superior
performance over standard polyester films in blast and impact events; yet still maintain
a high level of optical clarity. The PBSF is used to aid in wetting out during the coating
step. Window films are used in both automotive aftermarket as well as in public,
commercial and residential buildings. For construction applications window films are
used for the following properties: mitigates hazards from shattered glass during natural
disasters, helps protect people from flying glass shards, one of the most common
causes of blast-related injuries and fatalities, helps increase security and provide added
protection against smash and grab burglaries, significantly blocks the amount of
harmful UV rays.
polishing should be added.
A fluorosilicone chemistry is used in release liners for silicone-based adhesives in some
home improvement applications. Two silicone-based chemistries are used in products,
one picture hanging and one for bath and outdoor products. The fluorosilicone release
chemistry is used in the manufacture of the release liner which allows the silicone-
based adhesives to be coated and converted in the form of an adhesive transfer tape to
produce the final product.
Glass - fibre impregnation by PTFE-Dispersion is missing in the current report. The
main use of this product is roofing applications as a fire-resistant, weather resistant,
self-cleaning and light-weight construction material. It is frequently used in
applications where glass is not technically viable
(https://en.wikipedia.org/wiki/Mecca_fire_of_1997;
https://www.ifai.com/2008/09/01/fireproof-tents-shelter-visitors-at-mecca/
).
ETFE and THV films are used in different construction applications due to UV-
transparency, hail and water resistance.
In the questionnaire, PTFE should be divided in the following sub-categories: moulding
powder, fine-powder, and dispersion.
Chemical
Process Industry is the second largest segment according to the Socioeconomic study
published by Plastics Europe FPG group. It is not appropriately reflected in the
summary report or questionnaires. PTFE, PFA, FEP, PVDF, THV, FKM and FFKM are all
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used in the construction of chemical handling facilities chemicals, pharmaceutical,
bio-tech, oil & gas and other plants. The functionality spans UV-transparency, fire-
resistance, weather resistance (e.g., hail, general weathering), resistance to harsh
cleaning chemicals or sterilization, effective corrosion prevention to creating a metal
ion free environment. PFAS-containing Polymer Processing Additives are used to help
with the defect-free extrusion of high strength HDPE
(https://multimedia.3m.com/mws/media/991385O/dynamar-ppas-in-applications-of-
hdpe-pipes.pdf
).
MEDICAL DEVICES:
:
The use of
Fluid (CAS # 297730-93-
(CAS # 1064698-37-8) should be added.
TULAC
-40
It is important to note the use of 3M Polymer Melt Additive in the medical protective
clothing & facemasks. 3M Polymer Melt Additive is a fluorochemical flake (PFBS (C4)
based fluoro-polymeric material) for incorporation into polyolefin and other synthetic
resins (e.g. polypropylene). 3M Polymer Melt Additive is heat and shear stable to a
wide variety of extrusion conditions. 3M Polymer Melt Additive is designed to be
compatible with synthetic resins at extrusion temperatures. Consequently, the additive
can localize at the surface during quenching or within a few hours to provide an
effective surface-active treatment, while not significantly influencing fiber properties.
The report references personal protective equipment (PPE) several times, but a dedicated
section or category would be appropriate to include the following products should be added:
system control unit, Protective Coveralls 4532+, high performance filtration applications,
valves, washers, o-rings and electrical components with coated wires, used in multiple 3M
Scott Fire & Safety products.
PFAS PRODUCTION (MANUFACTURING)
In the category PFAS production (manufacturing), the following substances should be added:
Manufactured in EU/sold in EU+UK =
-40 (CAS
#1064698-37-
FC770 (CAS #1093615-61-
2),
Fluid PF5056 (2187449-42-7),
Fluid PF5058
(CAS# 2176446-38-
FA-188 Foam Blowing Additive (CAS #3709-71-5);
Imported into EU/sold in EU+UK =
-03-
1),
Engineered Fluid (CAS# 163702-08-7/163702-07-6)
and
Engineered Fluid (CAS# 63702-06-5/163702-05-4).
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F-GASES
-
:
The use of foam blowing additives in the production of energy efficient building
material should be added.
-188 Foam
Blowing Additive (CAS #3709-71-5) in this application.
The use of fluoroketone is missing as a clean agent fire suppression fluid, specifically
756-13-8).
The application of cover gas is detailed, however, the use of fluoroketone is missing as
a
756-
13-8).
The following product listed in F-Gas Annex I is missing:
Liquid FC-72 (CAS# 1064697-81-9). This product is typically used as a heat transfer
agent. Other products used as heat transfer agents are:
Liquid FC-3283 (CAS# 338-83-
-40 (CAS#
1064698-37-
-770 (CAS# 1093615-61-2).
The electrical equipment application is mentioned but the use of alternatives to sulfur
hexafluoride (SF
6
) in electrical switchgear, gas insulated lines and other gas-insulated
equipment is missing.
Insulating Gas (CAS # 756-12-
4710 Insulating Gas (CAS # 42532-60-5) as low global warming potential alternatives
to sulfur hexafluoride in this application.
The preservation of documents application should be added. The products used in
-08-
7/163702-07-
-5060 (CAS# 1064697-81-9).
Specific F-gas (specific composition is confidential) is used as explosion tamer in
polymerization processes during the production of fluoropolymers. CAS # can be
shared confidentially.
ELECTRONICS & ENERGY
:
The use of alternatives to sulfur hexafluoride (SF
6
) in Energy in electrical switchgear,
gas insulated lines and other gas-insulated equipment is missing. In particular, the
summary report and the questionnaire do not mention the use of fluorinated ketone
756-12-
42532-60-5) as low global warming potential
alternatives to sulfur hexafluoride in this application.
The following substances should be added under fire protection fluid:
1230 Fire Protection Fluid (CAS # 756-13-8).
The following substances should be added under Coatings of electronic
components:
(2-10% trade
secret fluoroaliphatic
Engineered
Fluid (CAS# 163702-08-7/163702-07-6)).
The following substances should be added under Heat transfer fluids:
7200 Engineered Fluid (CAS# 63702-06-5/163702-05-4),
7700 Engineered Fluid (CAS# 957209-18-6),
-
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3283 (CAS # 338-83-0)
756-13-
8). Other heat transfer fluids included in the report are:
Engineered Fluid (CAS# 297730-93-9),
-40
(CAS# 1064698-37-8) and
-72 (CAS#
1064697-81-9.
The following substances should be added under Solvent/Solvent Cleaning of
Electronics Components:
-08-
7/163702-07-6),
Engineered Fluid (azeotropic blend of
Isopropanol with
Engineered Fluid CAS# 163702-08-7/163702-
07-6),
(azeotropic blend of trans-1,2-
dichloroethylene (t-DCE)
(CAS # 132182-
92-4)).
The following substances should be added under Lubricant deposition for use as
solvents:
Engineered Fluid (CAS# 163702-08-7/163702-07-
6) and
Engineered Fluid (CAS# 63702-06-5/163702-05-4).
The following substances should be added under Thermal testing:
Electronic Liquid FC-770 (CAS# 1093615-61-2) and
Liquid FC-40 (CAS# 1064698-37-8).
The following substances should be added under Data Centers immersion cooling of
semi devices/servers:
-3284 (CAS# 382-28-
5 ),
-3283 (CAS# 338-83-
Electronic Liquid FC-40/43 (CAS #1064698-37-8),
Liquid FC-72 (CAS# 382-28-
-03-
1),
-08-7/163702-07-6) and
(CAS# 756-13-8).
The following products for fluoropolymer tube lining, solar films, cable and wire
insulation should be added: PFPE (CAS# 69991-67-9) lubricant is used on silicone
cable accessories, Silicone rubber compound containing PTFE (CAS# 9002-84-0) is
used in molding and extruding cable accessories; Solar Radiative Film uses PVDF
(CAS# 24937-79-9); Heat shrink tubing with PVDF (CAS# 24937-79-9).
The following sub-use category should be added: Ion exchange membrane in
vanadium redox batteries. Ion exchange membrane in vanadium redox batteries, made
out of fluoropolymers, are used as sealings for aggressive chemicals. Seals in high
temperature stationary fuel cells use fluoropolymer seals due to corrosion and
temperature resistance.
The summary report does not mention a small but growing application of the use of
Polymer Optical Fibers for data transmission where electromagnetic interference is a
concern. The fluoropolymer serves as a low refractive index layer.
-based
films and coatings are being used, but also PFAS-based tapes are heavily used in the
bonding of solar panels.
TRANSPORTATION
:
The report says that no information is available on fire prevention and protection. The
following substance should be added as a fire protection fluid:
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Fire Protection Fluid (CAS # 756-13-8)
.
Specific application includes fire systems for
marine vessels.
heat transfer fluids in immersion cooling applications in automotive electronics
applications (e.g. inverters, Electronic Control Unit (ECUs), on-board chargers, traction
motors). The following substances should be added as heat transfer fluids for power
electronics cooling:
-08-
7/163702-07-
132182-92-
neered Fluid (CAS# 297730-93-
Fluid (CAS# 756-13-
-770 (CAS# 1093615-
61-2),
-72 (CAS# 1064697-81-9).
th the Novec engineered
fluids used as solvent are used in automotive electronics to coat the printed circuit
boards and LED lighting for moisture and corrosion protection. Novec fluids can also
be used as carrier solvents for anti-fingerprint or anti-smudge coating materials for
automotive display surface coatings. The following substance should be added as a
-10% trade
secret fluoroaliphatic
7100 (CAS
# 756-13-8)).
The following substances should be added
Engineered Fluid (CAS# 163702-08-7/163702-07-6) and Novec 71DE
fluid (azeotropic blend of t-DCE with Novec 7100 fluid (CAS# 163702-08-7/163702-
07-6), Novec 71IPA fluid (azeotropic blend of Isopropanol and Novec 7100 fluid
(CAS# 163702-08-7/163702-07-6), Novec 72DE fluid (azeotropic blend of t-DCE
with Novec 7100 fluid (CAS# 163702-08-7/163702-07-6) and Novec 7200
fluid (CAS# 63702-06-5/163702-05-4), and Novec 73DE fluid (an azeotropic blend of
t-DCE and Novec 7300 fluid (CAS # 132182-92-4)).
The following substances should be added as solvents
-03-1),
163702-08-7/163702-07-
-06-
5/163702-05-4).
The following substances should be added as testing fluids:
Electronic Liquid FC-3284 (CAS# 382-28-5),
-
40 (CAS# 382-28-5),
-72 (CAS# 382-28-5).
Summary report mentions the use of PFAS-enabled adhesive tapes as paint
replacement. To be added: adhesive tapes are also used for paint protection. Paint
protection film products use PFAS as a stabilizing agent for the polymer that goes into
making of the finished product. The finished product itself is affixed to key areas of a
vehicle exterior to protect the painted surface from chips caused by impinging debris
and rocks. Other adhesi
utilizes a fluoropolymer film layer that provides weatherability and reduces the
potential of corrosion between two dissimilar materials that the SIT2010 is positioned
between in the vehicle chassis.
Summary report rightly mentions that Acrylic Foam Tape (AFT) products (PFAS are
used as stabilizing agent in production of tape) are used to affix the weight to the
wheel surface. To be added: The finished AFT product is also used to affix
components such as molding, clips and emblems to the exterior surface of the vehicle,
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as well as in the vehicle interior to affix sensors to the windshield for the rearview
mirror assembly, as well as for affixing silicone seals in the doors and trunk lids. AFT
products use PBSF as a manufacturing process aid, therefore the PBSF should be
added as a PFAS substance used in manufacturing of transportation products and
articles. Without its use the final product does not consistently meet quality and
performance requirements as defined by the automotive sector.
Summary report rightly mentions the use of adhesive tapes on aircraft exterior to
provide a chemical resistant surface for the aircraft as well as to reduce
surface energy. To be added, Polyurethane Protective tape is also used on the interior
of an aircraft. The fluoropolymer is incorporated in the polyurethane, which helps the
product to provide a moisture resistant barrier that helps to reduce the potential for
corrosion on the aircraft interior surface where it is applied.
Summary report mentions a group of fluoroelastomers as well as perfluoropolymeric
ionomers as part of PFAS substances used in transportation products and articles, but
does not mention other fluoropolymers, such as fluoroplastics and FKM and FFKM.
Fluoroplastic wiring is used in high temperature wiring to the catalytic converter as
well as used under the hood wiring applications for smaller and hotter engines. High
temperature FKM and FFKM seals are used in aerospace, commercial vehicles and
cars. Examples of applications that require high temperature performance combined
with chemical resistance are the cylinder head gasket, air intake manifold and turbo
charger hoses.
Additionally, PTFE Micropowders are also used as additives in oil-based lubricants and
in dry lubricants. The technical function is to reduce friction and to reduce the
temperature dependence of the lubricant formulation. Two critical applications of
PFAS containing lubricants include dry lubricants or PTFE bearings, which are
frequently used in durability and safety-relevant parts, and these applications are
nearly maintenance-free in accessibility-challenged environments. Also,
carrier solvents for dry lubricants (e.g.
PTFE powder) that are added to plastics used in automotive interiors.
It should be noted that fluoropolymers are essential to meet Euro 6 requirements for
standard and ethanol-containing fuel grades.
One missing subgroup within the Transportation summary report is wirings. Wiring for
catalytic converter sensors are commonly made from PTFE, and under-the-hood
wiring use Fluorothermoplastics where high temperature resistance is required (near
the Internal Combustion Engine). Fluoropolymers are also required in aircraft wiring
due to temperature and chemical resistance. Some aircraft wiring is inside of the
Kerosene tanks (wings) and therefore constantly exposed to fuel. Fluoropolymer
sleeves or jacketing provides the safety required.
Window films are missing from the current report. PBSF-enabled coatings used in
commercial/residential building window films are missing in the current report. The
PBSF is used to aid in wetting out during the coating step. Window films are used in
both automotive aftermarket as well as in public, commercial and residential buildings.
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FOOD CONTACT MATERIALS AND PACKAGING
The summary report characterizes Gen-X as a polymer processing aid (PPA). Gen-X is
a fluorinated emulsifier which is different from a polymer processing additive. We
believe there is a risk of confusion between this terminology, equating polymer
processing aid and the polymer processing additive. Polymer Processing Additives are
fluoropolymer-based additives to polyolefins, and engineering polymers to enable or
improve film, tubing, fibers or pipe extrusion or blow molding processes.
A missing sub-category under the consumer cookware applications are P Electrostatic
Powder Coating grades. Powders designed for electrostatic powder spray-coating are
used to produce non-stick coatings for industrial cook and backware as well as
industrial and consumer use rice cookers.
Under industrial applications, it should be noted that seals, O-rings, gaskets, tubing and
pipes use Fluorothermoplastics and PTFE that are processed into pipes and tubing for
commercial food and feed products or equipment for the private household.
Fluorothermoplastics and PTFE are also processed into valves and fittings for
commercial food and feed products. Fluoropolymer dispersions are formulated into
coatings for belts for commercial food and feed products.
Fluorelastomers designed for food contact applications such as seals that require high
temperature and chemical stability (frequently aggressive cleaning chemicals) cannot
be provided by other materials. Likewise, Fluorothermoplastics, PTFE and PTFE
compounds used for seals, valves and tubing that require high temperature, stability
against steam and chemicals (frequently aggressive cleaning chemicals) cannot be
provided by other materials.
The Polymer Processing Additives enable some of the recent reduction of packaging
film needed. They are not intended to change the surface properties of the packaging
material, but help to reduce or eliminate processing defects, improve processing
efficiency, improve energy efficiency and reducte manufacturing waste. Typically,
fluoroelastomers or fluorothermoplastics are used as Polymer Processing Additives
(not low molecular weight additives). Polymer Processing Additives are frequently
formulated with inorganics and non-fluorinated aliphatic polyethers or polyesters as
synergists.
Polymer Processing Additives are used in packaging. Fluoropolymers used in Polymer
Processing Additives are fluoroelastomers and fluorothermoplastics, so high-molecular
weight fluoropolymers. The summary report is incorrectly reporting their use,
especially in the food packaging sub-category.
Polymer Processing Additives promotes down gauging of films, layer stability in
multilayer construction, less waste in manufacturing, and less energy needed for
operations (enable overall lower cost in manufacturing). In exchange, they enable
affordable food packaging, help enable usage of strong, thin, light-weights packaging
articles, reduce overall consumption of plastic, enable preservation of food freshness,
reduce food waste and help enable increased recycled contact into packaging.
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OTHER: USES NOT COVERED BY THE STUDIES/QUESTIONAIRES
3M also uses PFAS in some of our Personal Protective Equipment that is not covered
by the TULAC study and questionnaire, including:
PELTOR
T
communications headset and system control unit, Protective
Coveralls 4532+, high performance filtration applications, Valves, washers, o-rings and
electrical components with coated wires, used in multiple 3M Scott Fire & Safety
products.
3M supplies products using PFPE and other PFAS for Release Liners to the industrial
converters and users in the general industrial and electronics industry. PFAS-enabled
silicone adhesives are used in double coated tapes, adhesive transfer tapes and foam
tapes. They are also used in bonding applications in mobile handheld devices and other
electronic devices. PFPE is used to coat the liner and provide the proper surface to
protect the adhesive prior to use. It provides excellent flexibility, high temperature
resistance and consistent performance over wide temperature ranges.
-group is home improvements
products (i.e., foam mounting tapes and squares, and damage-free hanging solutions).
A fluorosilicone chemistry is used in release liners for our silicone-based adhesives in
some home improvement applications. Two silicone-based chemistries are used in
products, one picture hanging and one for bath and outdoor products. The
fluorosilicone release chemistry is used in the manufacture of the release liner which
allows the silicone-based adhesives to be coated and converted in the form of an
adhesive transfer tape to produce the final product.
PBSF coating is used in whiteboard films to provide stain resistant properties. This
help
films can be applied to a variety of substrates and can be directly applied to a wall,
table or as a replacement film over an existing whiteboard.
OTHER: WRONG STATEMENTS:
It should be noted that there is an error in Appendix 1
-gas
-heptene
MPHE Sion TM is NOT a
fluoroketone.
Inconsistencies in the terminology used in the summary report:
and fluorinated Processing Aid are used in confusing and inconsistent ways in the
summary reports. A
clear definition of these terms is critically needed.
There are limitations to apply ERC approaches to calculate the emissions due to the
lack of volatility and water solubility of most of the higher molecular weight
fluoropolymers. It will be appropriate to develop Specific Environmental Release
Categories (SPERCs) for subsets of PFAS used in individual categories that better
consider the applications and material characteristics for PFAS materials or subsets of
PFAS (i.e. fluoropolymers, etc.). Therefore, the ERC analysis report should be adjusted
taking into consideration the physical properties and use conditions of PFAS.
In the use Category F-gas, the Section C solvent sub-use alternatives table lists several
non-PFAS alternatives. These same non-PFAS solvent alternatives are also reported in
Appendix 8 of the report Report summary F gas uses july 2021 This report and the
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listed alternatives are directly contradicted by the contents of the
of Fluorinated Gases (F-Gases) in the European Economic Area, also provided by the
authorities, questioning the viability of these options. Paragraph 4.3.2 of this report
cleaning: isopropyl alcohol (IPA), n-propyl bromide (nPB), dichloromethane
(DCM,methylenechloride),trans-1,2-dichloroethylene,trichloroethylene (TCE),
perchloroethylene (PER), volatile methyl siloxanes, hydrocarbons (hexane, heptane,
benzene) and acetone. Many of these alternatives have health concerns and regulatory
restrictions. Other alternatives such as IPA are considered highly flammable and
therefore not suitable for some uses. In fact as referenced by (EC) No 1272/2008 on
the classification, labelling and packaging of substances and mixtures (CLP Regulation)
the listed alternative solvents present significant flammability and human health
concerns and may further include regulatory barriers preventing their use: Isopropyl
alcohol (67-63-0) is a category 2 highly flammable liquid/vapor, N-propyl bromide
(106-94-5) is a category 1B reproductive toxin and is further subject to Authorization in
the EU under REACH Annex XIV, dichloromethane (75-09-2) is a category 2
carcinogen, trans-1,2-dichloroethylene (156-60-5) is a category 2 highly flammable
liquid/vapor, trichloroethylene (79-01-6) is a category 1B carcinogen and category 2
mutagen and is further identified as an SVHC for its carcinogenic potential,
perchloroethylene is a category 2 carcinogen, octamethylcyclotetrasiloxane (CASRN
556-67-2), a volatile methyl siloxane, is a category 2 reproductive toxin and is SVHC-
listed on the basis of its PBT and vPvB characteristics, n-hexane (110-54-3) is a
category 2 highlight flammable liquid and vapor and is a category 2 reproductive toxin,
benzene (71-43-2) is a category 1A carcinogen and a category 1B mutagen and a
category 2 highly flammable liquid/vapor, heptane (142-82-5) is a category 2 highly
flammable liquid/vapor, and acetone (67-64-1) is a category 2 highly flammable
liquid/vapor.
Immersion cooling, t
-phase liquid immersion cooling
showed promising results in the, important, energy saving of datacentres. It is more
energy-efficient however, the potential for emissions is deemed higher (reference 18).
In 2016 the cost of the fluids alone was found to be higher than the cost reduction
quantitative representation of emissions. There are installations with reported
evaporative fluid losses of 1-2% per year as well as documented reports of ~1% fluid
loss per year, as reference (https://146a55aca6f00848c565-
a7635525d40ac1c70300198708936b4e.ssl.cf1.rackcdn.com/images/9f425f33160ad
cab98bfaca87c06c1ff0c71d9a3.pdf)
3M is aware of some system integrator tank
suppliers providing warranties for 1% or lower loss of fluid per year. We believe that the
industry can achieve evaporative losses on the order of 0.1% per year with ongoing
improvements to both tank design and operational controls (i.e., methods to perform
routine maintenance.) Also, while Reference 19 is a comprehensive report, it should be
considered that the work was published in 2016 and describes fluid loss and energy
consumed during a 10-month timeframe based on a single, hand-built, experimental
tank. As 3M has firsthand knowledge of the installation and operation of the
referenced system, we know that circumstances of the project forced the tank to
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remain open in an unsealed state for an extended period of time (i.e., days) leading to
losses far higher than is expected (and now demonstrated) in current documented
installations. The equipment used is not well described, however, it is known that in
2015/2016 when this work was completed, there were no commercially available
systems for two phase immersion cooling. In the past 5 years there have been
significant learnings and advancements to operating two phase immersion cooling
systems for use in datacenters as well as the availability of commercial systems from
multiple suppliers. Improved system design combined with operational standards
support greatly improved fluid losses resulting in losses of 1% or less over extended
periods of time. A more holistic view of the true value and cost of immersion cooling
should consider cost on the scale of an entire datacenter, including annual savings for
water and energy. Datacenters built for immersion cooling can be built in less time,
require a smaller footprint, use less water and less energy to provide equal or greater
computing power compared to an air-cooled datacenter. To take from a published
example, reference (www.opencompute.org/files/Open-Compute-Engineering-
Workshop-3M-Immersion-Cooling-March-2018-FINAL.pdf)
3M appreciates
missing uses and applications,
missing PFAS substances, or wrongly stated information in the reports when developing the
PFAS restriction dossiers.
3M welcomes the opportunity to further discuss any previously provided or above input.
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