Historical and Current Major Uses of PFASs OECD Webinar€¦ · •Corrosion resistant equipment...
Transcript of Historical and Current Major Uses of PFASs OECD Webinar€¦ · •Corrosion resistant equipment...
Historical and Current Major Uses of PFASs – OECD Webinar 29 January 2014
Terminology and Properties
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• The term PFC can be unclear; PFAS describes per- and polyfluoroalkyl substances
• Polymeric and non-polymeric
• Multitude of chemical families
• FluoroTechnology = Fluorinated Polymers and Surfactants and Fluoropolymers
• The stable carbon-fluorine bond gives PFAS unique properties – Key Properties: resistance to heat and chemical agents, low surface
energy, dielectric properties, and low friction properties
– Valuable ingredients for products with high versatility, strength, resilience and durability
FluoroTechnology’s Economic Footprint
• FluoroTechnology is essential to thousands of products and applications throughout the global economy.
• Globally, the market value of processed FluoroTechnology* reached $19.7 billion in 2013.
• In 2013, more than $1.2 trillion of global manufacturing output relied upon FluoroTechnology in either the end product itself, or in its processing.
*FluoroTechnology includes fluoropolymers, fluoroelastomers, and fluorotelomer-based materials and products made with these materials. It does not include refrigerant gases.
- Preliminary Estimates by FluoroCouncil 3
Examples of Fluoropolymer Applications
Semiconductor
Manufacturing
Aerospace Materials -
Hydraulic Tubing
Wire & Cabling
Chemical and Pharma
Processing Valves,
Lined Piping, Tanks
Low Permeable
Automotive Fuel Hose
- http://fluorocouncil.com/PDFs/Industrial-Reliance-on-FluoroTechnology.pdf - OECD (2013) Synthesis Paper on Per- and Polyfluorinated Chemicals (PFCs)
(https://www.oecd.org/env/ehs/risk-management/PFC_FINAL-Web.pdf)
Data
Wire & Cabling
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Non-stick Coatings for Cookware and Small Electrical Appliances
Electronics
Examples of Fluorinated Polymer and Non-Polymer (Surfactants) Applications
Protective Finishes on
Apparel and Textiles Paint
- http://fluorocouncil.com/PDFs/Industrial-Reliance-on-FluoroTechnology.pdf - OECD (2013) Synthesis Paper on Per- and Polyfluorinated Chemicals (PFCs)
(https://www.oecd.org/env/ehs/risk-management/PFC_FINAL-Web.pdf)
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Protective Health
Care Garments
Architectural
Coatings
Industrial Firefighting
PFAS Benefits and Supported Industries
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• Safety: Workers, Consumers, Environment – Chemical and Pharmaceutical
Manufacturing
– Food Processing
– Personal Protection and Worker Safety
– Safety Equipment
– Healthcare/Hospitals
– Metal Plating
– Aerospace
– Wire & Cable in Buildings
– Paper and Packaging
• Electronic Equipment – Semiconductors and Electronics
• Durability – Building and Construction
– Industrial and Institutional Floor Care
– Cookware
– Paints and Coatings
– Outdoor Apparel/Equipment
– Leather (Footwear and Furniture)
– Carpet and other Home Textiles
• Emissions Reduction/(Alternative) Energy – Automotive
– Oilfield and Mining
– Alternative Energy
PFAS Applications Safety: Workers, Consumers, Environment
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Chemical Manufacturing
Major Type of FluoroTechnology: • Fluoropolymers; fluorinated
polymers
Key Uses: • Corrosion resistant equipment linings and coatings • Treated garments protect workers from chemical
exposure
Key Properties: • Resistance to high heat and harsh chemicals
Key Benefits: • Safe chemical processes (for workers, community and
environment) in long lasting, capital intensive equipment
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Pharmaceutical Industry
Major Type of FluoroTechnology: • Fluoropolymers
Key Uses: • Sterile, corrosion resistant equipment linings and coatings
Key Properties: • Sterility, resistance to high heat and harsh chemicals
Key Benefits: • High purity medications
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Food Processing Industry
Major Type of FluoroTechnology: • Fluoropolymers
Key Uses: • Sterile equipment linings and coatings
Key Properties: • Non-stick surfaces for commercial baking, easy clean and
disinfect, oil and grease resistance
Key Benefits: • Reduced use of cooking release chemicals, reduced
potential for food-borne illness, reduced production costs leading to more affordable food
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Paper and Packaging
Major Type of FluoroTechnology: • Fluorinated Polymers
Key Uses: • Packaging for high oil content and high grease content foods • QSR: Food wraps, pizza boxes, hamburger clam shells, plates
Key Properties: • (Hot) oil and grease resistance, improved water holdout
Key Benefits: • Consumer protection (hot oil in microwave popcorn, hot food),
increased shelf life, less plastic packaging material
Safety Equipment
Major Type of FluoroTechnology:
• Fluorinated surfactants (non-polymers)
Key Uses:
• Firefighting foams to extinguish flammable liquid fires (Class B fires)
Key Properties:
• Low surface tension and positive spreading coefficient, burnback resistance
Key Benefits:
• Saving lives and equipment in military, industrial, and municipal settings, such as civilian and military aviation, refineries, chemical manufacturing, ships and oil platforms 12
Aerospace
Major Type of FluoroTechnology:
• Fluoropolymers
Key Uses:
• Tubing, cable and wire, PFPE lubricants in oxygen systems
Key Properties:
• Wide and high temperature operating range, light-weight, low-fire, low-smoke, chemically inert, eliminate explosion risk
Key Benefits:
• Safe aircraft operation, reduced emissions (fuel efficiency)
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Healthcare/Hospitals
Major Type of FluoroTechnology: • Fluoropolymers, Fluorinated Polymers
Key Uses: • Catheter coatings, needle coatings,
medical garments
Key Properties: • Low friction, clot resistant coating;
breathable, water, oil, stain and soil protection
Key Benefits: • Patient comfort and safety in catheter applications, safety in
deep needle operations including certain drug injections and biopsies, disease transmission prevention
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PFAS Applications Durability
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Outdoor Apparel/Equipment
Major Type of FluoroTechnology: • Fluoropolymers, fluorinated polymers
Key Uses: • Firefighter turnout gear, oil/gas and chemical
industry clothing, military/police bulletproof vests/clothing, outdoor clothing and equipment
Key Properties: • Breathable, water, oil, stain and soil protection
Key Benefits: • Durable (life saving) protection, reduced environmental footprint
(longer garment life, easy care, cold wash, faster drying times)
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Building and Construction
Major Type of FluoroTechnology: • Fluoropolymers, Fluorinated Polymers, Surfactants
Key Uses: • Architectural film, façade and infrastructure protection
Key Properties: • High durability, UV resistance, anti-corrosion,
stain and soil protection, improved wetting and pore penetration
Key Benefits: • Aesthetic architecture, longer
lifetime for infrastructure, building façade and surfaces lifetime, reduction of VOC in paint formulations
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Household Products
Major Type of FluoroTechnology: • Fluoropolymers, Fluorinated Polymers, Surfactants
Key Uses: • Pots, pans, bakeware, small electrical appliances (consumer
and commercial use), textiles, upholstery, carpet
Key Properties: • Durable non-stick; water, oil, stain
and soil protection
Key Benefits: • Ease of use and cleaning, durability
of goods and healthy cooking (less fat)
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PFAS Applications Electronic Equipment
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Semiconductor/Electronics Manufacturing
Major Type of FluoroTechnology: • Fluoropolymers, fluorinated polymers
Key Uses: • Plasma machinery, etching materials, cleaning fluids, wetting
surfactants for chemical etchants
Key Properties: • High corrosion resistant, high purity, plasma and chemical
resistant gaskets and O-rings
Key Benefits: • Vital to semiconductor production, modern
disk drives, worker safety, equipment integrity
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Electronic Products
Major Type of FluoroTechnology: • Fluoropolymers, fluorinated polymers
Key Uses: • Hard disk drives, wireless devices
Key Properties: • Insulation, weatherability, transparency, water resistance
Key Benefits: • Modern disk drives, long life, low power loss, miniaturization
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PFAS Applications Emissions Reduction/(Alternative) Energy
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Automotive
Major Type of FluoroTechnology: • Fluoropolymers
Key Uses: • Fuel lines, oil pan and head gaskets
Key Properties: • Low weight, high vapour barrier, heat and chemical
resistance
Key Benefits: • Reduction in emissions, increased fuel economy
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All images courtesy of AGC CHEMICALS AMERICAS, INC.
Automotive Uses of FluoroTechnology
Engines: • Crankshaft Seals • Front Cover Seals • Cylinder Head Gaskets • O-Rings • Gaskets • Valve Stem Seals • Camshaft Seals • Oil Pan Seals • Engine Oil Coolers • EGR Valve Seals • Water Pump Seals • PTFE Bearings • Back-up Rings • V-Packings • Valve Packings • Gaskets • Valve Stem Seals • Camshaft Seals
Transmissions: • PTFE Seals • PTFE Bearings • Piston Seals • Shaft Seals • Gaskets • O-Rings • Fluid Transfer Seals • Sensor Modules
Fuel Systems: • Seals • Oil Coolers • Valve Bodies • Liquid Lines • Vapor Lines • Fuel Tanks • Filler Necks • Fuel Tanks • Connectors • Oxygen Sensors • Filler Necks • Seals
Axle Systems: • Wheel Bearing Seals • Hub Seals • Differential Output Seals • Rotary Shaft Seals • Wheel Bearing Seals • Hub Seals • O-Rings
Steering Systems: • Gear Seals • PTFE Bearings • Column Adjustment • Pump Seals • Gear Mounts • Steering Rack Seals
Electronics: • Engine Wiring • Transmission Wiring • Under-hood Wiring • Fiber Optic Cables
Suspension/Brakes: • Strut Seals • Shock Absorbers • Piston Seals • Brake Pad Additives • Brake Piston Seals
Environmental Systems: • Hood, Door, &
Trunk Hinges • PTFE Bearings • Push/Pull Cables • Power Door Lock Seal • Seat Adjustment Systems • Active Headlight Seal
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Alternative Energy
Major Type of FluoroTechnology: • Fluoropolymers, fluorinated polymers
Key Uses: • Photovoltaic solar cells,
lithium batteries
Key Properties: • Insulation, improved efficiency and safety,
durability
Key Benefits: • Renewable energy, reduced emissions, increased
lifetime and reduced costs
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Transition to Alternatives
• Alternatives that gained regulatory approval exist for most uses of long-chain PFAS
• “Non-fluorine containing substances are available for some applications, but may not work as well as long-chain PFASs, particularly in situations where extremely low surface tension and/or durable oil- and water-repellence is needed.”
26 - OECD (2013) Synthesis Paper on Per- and Polyfluorinated Chemicals (PFCs)
(https://www.oecd.org/env/ehs/risk-management/PFC_FINAL-Web.pdf)
Summary
• Because of its unique physical properties, fluoro-technology is an integral and essential part of the global economy and every day life.
• Without FluoroTechnology, many of the mentioned industries could not function and quality of life would be very different.
• In 2013, more than $1.2 trillion of global manufacturing output relied upon FluoroTechnology in either the end product, or in its processing.
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Back-up Slides
PFAS Terminology Fluorinated Polymers and Surfactants - Fluoropolymers
30 - OECD (2013) Synthesis Paper on Per- and Polyfluorinated Chemicals (PFCs) (https://www.oecd.org/env/ehs/risk-management/PFC_FINAL-Web.pdf)