The document discusses hazardous location solutions from ASCO, including solenoid-operated valves. ASCO offers valves that are approved by global regulatory agencies and certified for use in hazardous environments worldwide. The valves are available in various models and constructions for applications such as oil, gas, chemical processing and more. ASCO provides expertise to help customers select the appropriate valves and solve application problems.
ASCO Solenoid Valves Catalog with detailed specifications to order with complete correct sizes and configuration choices. For reference only. To order, contact Carotek.com
Design Calculations of Venting in Atmospheric and Low-pressure Storage Tanks ...Pradeep Dhondi
hi
i have made an excel base software base on API st.2000 "Design Calculations of Venting in Atmospheric and Low-pressure Storage Tanks" to make calculation easy and accurate , i have take many case study and verified my software got positive result.
if you think you need this software for design the vent , please go to "rajiravi.ml" website there you can find complete information base on software and information based on contact etc...
ASCO Solenoid Valves Catalog with detailed specifications to order with complete correct sizes and configuration choices. For reference only. To order, contact Carotek.com
Design Calculations of Venting in Atmospheric and Low-pressure Storage Tanks ...Pradeep Dhondi
hi
i have made an excel base software base on API st.2000 "Design Calculations of Venting in Atmospheric and Low-pressure Storage Tanks" to make calculation easy and accurate , i have take many case study and verified my software got positive result.
if you think you need this software for design the vent , please go to "rajiravi.ml" website there you can find complete information base on software and information based on contact etc...
Valves are the components in a fluid flow or pressure system that regulate
either the flow or the pressure of the fluid. This duty may involve stopping
and starting flow, controlling flow rate, diverting flow, preventing back
flow, controlling pressure, or relieving pressure.
DHV Gate, Globe, Check, Ball, Wellhead, Choke, & API 6A Gate valves with material of carbon steel, cast iron, stainless steel and alloy steel. Based on our high technology equipped foundry facility, workshop and laboratory, we will leave you completely satisfied with our quality products in both commodity and special application lines.
This brochure provides an overview of our wellhead valves.
Design and analysis of control valve with a multi stage anti cavitation trimnaz4u
Valves are the components in a fluid flow or pressure system that regulate
either the flow or the pressure of the fluid. This duty may involve stopping
and starting flow, controlling flow rate, diverting flow, preventing back
flow, controlling pressure, or relieving pressure.
Flowserve Valves - Kammer Control ValvesSwanson Flo
FLOWSERVE Kämmer manufactures special application and general service control
valves and actuators, which are used extensively in the chemical, petrochemical, power, petroleum, pulp & paper, pharmaceutical, food processing and cryogenic industries.
FLOWSERVE Kämmer pneumatic actuators are widely known for their versatile diaphragm design, easy installation and simplified maintenance. When compared to other manufacturers’ diaphragm actuator designs, Kämmer actuators have much higher thrust capabilities, feature a very compact design and are lighter in weight. They also feature a field reversible design that requires no additional
parts.
In this Webinar we explore the details of actual case studies focusing on various signs that indicate if a particular support needs replaced or adjusted. The presentation also covers projects that brought on new standard designs and custom designs for specific applications. And lastly, it includes valuable additions and procedures that extend the typical life span of a pipe support. PT&P's field services division is available 24x7 in the case of an emergency situation or for a scheduled shut down.
Valves are the components in a fluid flow or pressure system that regulate
either the flow or the pressure of the fluid. This duty may involve stopping
and starting flow, controlling flow rate, diverting flow, preventing back
flow, controlling pressure, or relieving pressure.
DHV Gate, Globe, Check, Ball, Wellhead, Choke, & API 6A Gate valves with material of carbon steel, cast iron, stainless steel and alloy steel. Based on our high technology equipped foundry facility, workshop and laboratory, we will leave you completely satisfied with our quality products in both commodity and special application lines.
This brochure provides an overview of our wellhead valves.
Design and analysis of control valve with a multi stage anti cavitation trimnaz4u
Valves are the components in a fluid flow or pressure system that regulate
either the flow or the pressure of the fluid. This duty may involve stopping
and starting flow, controlling flow rate, diverting flow, preventing back
flow, controlling pressure, or relieving pressure.
Flowserve Valves - Kammer Control ValvesSwanson Flo
FLOWSERVE Kämmer manufactures special application and general service control
valves and actuators, which are used extensively in the chemical, petrochemical, power, petroleum, pulp & paper, pharmaceutical, food processing and cryogenic industries.
FLOWSERVE Kämmer pneumatic actuators are widely known for their versatile diaphragm design, easy installation and simplified maintenance. When compared to other manufacturers’ diaphragm actuator designs, Kämmer actuators have much higher thrust capabilities, feature a very compact design and are lighter in weight. They also feature a field reversible design that requires no additional
parts.
In this Webinar we explore the details of actual case studies focusing on various signs that indicate if a particular support needs replaced or adjusted. The presentation also covers projects that brought on new standard designs and custom designs for specific applications. And lastly, it includes valuable additions and procedures that extend the typical life span of a pipe support. PT&P's field services division is available 24x7 in the case of an emergency situation or for a scheduled shut down.
2015-03 HxRefactored Building Healthcare Businessesimagine.GO
We just got back from a week in Boston where we presented at the Health 2.0 and Mad-Pow sponsored HXRefactored Conference. They did a great job with the conference and we had a good time and met some very cool folks on the cutting edge of health and design. I was honored to be able to present with Matt Holt, Google Ventures, & Henry Ford Innovations at Dollars & Sense: The Business of Healthcare. We each gave perspectives on building healthcare businesses.
My talk was focused on three simple rules for building healthcare businesses. In brief they are:
1. Make sure you business model has applicability to all parts of the healthcare ecosystem. WHY? Building business models in healthcare requires understanding the dynamics of the ecosystem. It is very hard to disrupt the players. Make sure you know how you stuff helps their stuff.
2. Make sure you business model speaks to all parts of the healthcare canvas. WHY? Building business models in healthcare requires understanding the moving parts and then showing how they interact. We think there are more of moving parts that Alex Osterwalder's 9 (although we love his 9 dearly). That is why we built modelH - a business model canvas designed specifically for healthcare companies to develop and explain their business models.
1. Make sure you business model is more than just a canvas. WHY? Building business model canvases is part of building businesses – but you are a long way from viability with just a canvas. Building businesses in healthcare also requires more than LEAN & your MVP (but please start with this). This is why our model for building businesses is focused on commercialization from the go.
In summary, know how your model will apply to the healthcare ecosystem, explain how your business model actually serves all constituents in the multi-sided market (and is believable), and show how you will operationalize your business based on sound decisions.
Here is the deck. Enjoy and let us know how we can make it better. And if you need help launching you company, contact us.
Flame control products for industrial fluid operationsCTi Controltech
Groth Corporation's Pressure/Vacuum Relief Valves, Pressure Relief Valves, Vacuum Relief Valves, Pilot Operated Valves, Flame and Detonation Arresters, Emergency Relief Valves, Waste Gas Burners, Pressure Regulators and more have been protecting refineries, chemical processing plants and facilities with atmospheric, fixed-roof storage tanks for more than 50 years.
Manufacturing, supplying, exporting Single and Double Check Valve Couplings, Ball Valves and Coupler Hoses. These are appreciated for their sturdiness and resistance to corrosion.
The Mark 86 Ambient Temperature Regulator is designed to control steam-tracing lines based on ambient temperatures. Steam tracing lines are commonly used to protect outdoor instrumentation, pipelines, and tanks from freezing. The Mark 86 allows steam to flow through the tracer lines only when it is needed and remains closed when the ambient temperature rises above a predetermined set point.
Terofox provides one stop service in diversity of valves’ procurement and ODM & OEM manufacturing, all our products and quality management procedures are in accordance with ISO 9001. Our wide range of products includes:
API608 Floating Stainless Steel Ball valve
API6D Trunnion Ball valves.
API 594 Dual plate check valves.
Concentric Butterfly Valves (Pins and Pinless / PTFE lining )
But our main focus is our “Special Product Line” in Taiwan that includes:
Sanitary Valves.
Cryogenic Valves: Used in the transmission of extreme low temperature services.
Special Alloy Valves: Some of the Materials we offer are Alloy 20, Monel, Hastelloy, Duplex/ Super Duplex Stainles Steel, Titanium and more.
Dead-man Return Ball Valves: Spring Return Handle that decreases the Torque for easier use.
Fugitive Emission ISO15848-1 certified : Safty is a trend nowadays, our low emission valve meets ISO15848-1 for eliminating fugitive emission
API607 6th Edition / ISO10497:2010 Fire Safe Approval ball valves - Flange Ball valves ( TF-20FS, TF-20DFS ), Trunnion Mounted Ball Valve ( TF-40FS, TF-44FS ) and high performance Ball Valve (EB-321DFS), Wafer Type Ball Valve ( TF-10MFS)
BS6363 Cryogenic Ball Valves
Marine Certified valves
Metal Seated Ball Valves : up to 600 Degree Celsius
3000psi/6000psi/10,000psi Ball Valves
In order to satisfy variety of requirements, we have applied for certificates such as ISO 9001, CE ( PED 97/23/EC ), API607 6th Edition Fire Safe Approved for floating and trunnion mounted ball valve, ABS PDA certificate, TA-Luft, ISO15848 for Fugitive Emmission applications, AD-2000, as well as foundry approvals: DNV, BV, LR certifications.
Our mission is to assist our customers in obtaining the best possible solutions to their requirements and needs, at the most advantageous prices, without compromising on delivery or quality. With this in mind, we believe in developing long terms relationships, based on mutual trust and honesty.
AS-Schneider is one of the World's Leading Manufacturers of
Instrumentation and Pipeline Valves.
Today we are supplying a range of Process to Instrument
Valves (VariAS-Blocks) DN 10 (Bore Size 10 mm), DN
15 (Bore Size 14 mm) and DN 20 (Bore Size 20 mm)
as well as Double Block & Bleed Pipeline Ball Valves
(Taurus Series), starting with DN 25 (1") up to DN
150 (6") type.
You can rest assured in your decision to purchase
AS-Schneider, we are a modern, international family-owned
company since 1875. You can rely on our 140
years of manufacturing experience. The AS-Schneider
Group with its headquarters in Germany is one of
the world's leading manufacturers of Instrumentation
Valves and Manifolds.
The GS valve is a high performance variable orifice control valve. Known as a sliding gate valve, the GS3 seat design features a non turbulent, straight through flow path. The flow is broken apart into multiple streams creating a reduced field of energy. The result is greater service life, quieter operation and a control valve that performs at the highest levels possible within extreme conditions. Maximized temperatures and pressures, 986 F and 1,450 psi. Sizes 1/2″ – 10″ (DN 15 – 250) Carbon Steel and 316 Ti Stainless Steel, and Hastelloy C4 in select sizes.
The TBH Series True Union Industrial Ball Valve, from Hayward Flow Control, features a low maintenance design with its new patent pending System2™ Sealing Technology. Assisting users in protecting property and life, an integral lock-out feature secures to the body of the valve. Actuator ready design with ISO 5211 mounting pattern on all sizes is standard
Cashco manufactures a broad line of throttling rotary and
linear control valves, pressure reducing regulators, and
back pressure regulators in line sizes from 1⁄4 inch to
10 inches and Cv ranges from .002 to 4,406. Models
are available to handle slurries, cryogenic service, and
corrosive fluids; to withstand high temperatures and
pressures; and to maximize the reduction of fugitive
emissions. Contact Cashco for complete product information.
For applications where rapid transition from open to closed positions is warranted, the Mark 76 is a solid choice. Designed with a short stroke and straight through fluid path, the Mark 76 also incorporates other features to assure good service for process operations using on/off control.
Similar to ASCO Solenoid Valves - Hazardous Area ATEX Certified Valves - New Catalogue (20)
Isolation Procedures for Safe Working on Electrical Systems and Equipment by the JIB | solation Procedures for Safe Working on Electrical Systems and Equipment
This chart shows the safe isolation procedure that you should use when working on electrical systems and equipment.
You'll receive a printed copy of this from your Training Provider, but it's also here as a handy reference to keep electronically.
THE RULES OF SAFE ISOLATION ARE:
Obtain permission to start work (a Permit may be required in some situations)
Identify the source(s) of supply using an approved voltage indicator or test lamp
Prove that the approved voltage indicator or test lamp is functioning correctly
Isolate the supply(s)
Secure the isolation
Prove the system/equipment is DEAD using an approved voltage indicator or test lamp
Prove that the approved voltage indicator or test lamp is functioning correctly
Put up warning signs to tell other people that the electrical installation has been isolated
Once the system/equipment is proved DEAD, work can begin
Uploaded by THORNE & DERRICK LV HV Jointing, Earthing, Substation & Electrical Eqpt | Explosive Atmosphere Experts & ATEX IECEx.
THORNE & DERRICK based in the UK are international distributors of LV, MV & HV Cable Installation, Jointing, Substation & Electrical Equipment.
Since 1985, T&D have established an international reputation based on SERVICE | INTEGRITY | TRUST.
Contact us for 3M, ABB, Alroc, AN Wallis, CATU, Cembre, Centriforce, CMP, CSD, Elastimold, Ellis Patents, Emtelle, Euromold, Filoform , Furse, Lucy Electric & Zodion, Nexans, Pfisterer, Polypipe, Prysmian, Roxtec, Sicame, WT Henley.
Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
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Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
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PHP Frameworks: I want to break free (IPC Berlin 2024)Ralf Eggert
In this presentation, we examine the challenges and limitations of relying too heavily on PHP frameworks in web development. We discuss the history of PHP and its frameworks to understand how this dependence has evolved. The focus will be on providing concrete tips and strategies to reduce reliance on these frameworks, based on real-world examples and practical considerations. The goal is to equip developers with the skills and knowledge to create more flexible and future-proof web applications. We'll explore the importance of maintaining autonomy in a rapidly changing tech landscape and how to make informed decisions in PHP development.
This talk is aimed at encouraging a more independent approach to using PHP frameworks, moving towards a more flexible and future-proof approach to PHP development.
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Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
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This video focuses on the notifications, alerts, and approval requests using Slack for Bonterra Impact Management. The solutions covered in this webinar can also be deployed for Microsoft Teams.
Interested in deploying notification automations for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
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Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
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But there’s more:
In a second workflow supporting the same use case, you’ll see:
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But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
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Sectoral targets and attacks as well as the cost of ransom
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Watch this recorded webinar about real-time monitoring of application performance. See how to integrate Apache JMeter, the open-source leader in performance testing, with InfluxDB, the open-source time-series database, and Grafana, the open-source analytics and visualization application.
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Session Overview
-------------------------------------------
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ASCO Solenoid Valves - Hazardous Area ATEX Certified Valves - New Catalogue
1. Hazardous Location Solutions | for the Process Control Industry
UL • CSA • FM • ATEX • IECEx • NEPSI • INMETRO • TR CU
4
w w w. a s c o v a l v e . c o m
2. Global Approvals
Fluid automation equipment must operate flawlessly in haz-
ardous or explosive environments. Solenoid-operated valves
are essential components in these challenging applications.
They must comply with the strictest safety regulations while
staying up and running, cycle after cycle, year after year.
ASCO offers the world’s most comprehensive family of prod-
ucts that hold approvals from the leading global agencies —
UL, CSA, FM, ATEX, and IECEx. In addition, our valves are
inspected and certified to NEPSI in China, INMETRO in
Brazil, and TR CU in Russia. That means users can specify
highly reliable ASCO valves in their designs and be assured
they are approved for use in dangerous conditions — anywhere
in the world.
ASCO‘s global solutions for hazardous locations
include valves available in the following models:
• Standard 3-way and 4-way solenoid valves
• Direct-acting and pilot-operated solenoid valves
• Manual reset and NAMUR valves
• Rugged 316L Stainless Steel valves for
harsh environments
• Low Power Intrinsically Safe and Non-Incendive
Field Wiring solenoid valves
• Low temperature constructions down to -58˚F (-50˚C)
ASCO offers hundreds of valve constructions with various global
approvals that can be exported worldwide. Our products are
famous for their robust operator heads and extended service lives.
These products are ideal for the mission-critical demands of
power generation, chemical processing, oil, gas, and refining
applications, plus general machinery, wellhead control, mining
equipment and measuring and controlling devices.
With more than 100 specialists and over 140 distributors in the
U.S. alone, ASCO has the technical expertise that can rapidly
solve application problems and help interpret confusing product
codes and classifications. Our one-stop shopping offers time-
saving convenience and rapid fulfillment. There’s only one
source to specify; one contact number to call; one solution to
keep in inventory.
Only ASCO solenoid valves deliver the advanced designs,
top-grade materials, meticulous manufacturing, and unequaled
quality assurance that maximize durability and achieve unsur-
passed performance in hazardous and explosive environments.
If you cannot find the product you need or if you
need more detailed specifications, visit
www.ascovalve.com or call 800-972-2726.
CAUTION: Users should consult www.ascovalve.com or Catalog 35 to see complete specifications for the products selected from this catalog.
WARNING: Improper selection or use of products and related items in this catalog can cause death, serious injury, or property damage.
^ # %
3. 1
Valve Series Type
Pipe
Size (in)
Max.
Cv (Kv)
UL or FM
√ CSA ATEX/IECEx TR CU INMETRO NEPSI Page
EV 8314 3-Way 1/8-1/4 0.2 (.17) • • • ¨ - - - 2 & 4
EV 8316 3-Way 1/4-3/4 12.5 (11) • • • ¨ - - - 2
EV 8317 3-Way 1/4 0.73 (0.63) • • • ¨ - - - 2 & 4
EV 8320 3-Way 1/4 .35 (.30) • • • ¨ - - - 3
EV 8327 3-Way 1/4 .56 (.48) • • • ¨ - - - 4
EV 8344 4-Way 1/4-1/2 2.2 (1.89) • • • ¨ - - - 2
EV 8551 3-Way
4-Way 1/4 .86 (.75) • • • ¨ - - - 3 & 5
JPIS 8314 3-Way 1/4 .06 (.05) • • • ¡ - - • 2
JPIS 8316 3-Way 1/4-3/4 5.5 (4.7) • • • ¡ - - • 2
JPIS 8317 3-Way 1/4 .73 (.63) • • • ¡ - - • 2
JPIS 8344 4-Way 1/4-3/4 5.6 (4.8) • • • ¡ - - • 2
JPIS 8551 3-Way
4-Way 1/4 .86 (.75) • • • ¡ - - • 3
Harsh Environment 8320 3-Way 1/4 .16 (.14) • • • - - - 6
NF/WSNF 8316* 3-Way 1/4-1/2 3.9 (3.4) - - • ¬ • • • 6
NF/WSNF 8320* 3-Way 1/4 .24 (.21) - - • ¬ • • • 6
NF/WSNF 8327* 3-Way 1/4 .52 (.45) - - • ¬ • • • 6 & 7
NF/WSNF 8551* 3-Way
4-Way 1/4 .87 (.75) - - • ¬ • • • 6 & 7
^ # %
¨ II 2G Ex d mb IIC T* Gb
II 2D Ex mb IIIC T** Db IP67
Ex d mb IIC T* Gb
Ex mb IIIC T** Db
¡ II 1 G Ex ia IIC T6 Ga under FM10ATEX0015X
IECEx approved for: Ex ia IIC T6 Ga under IECExFMG10.0008X
¬ II 2G Ex d IIC Ga T6, II2D Ex + IIIC Db
√ FM available for JPIS only
*Designated products not included in the SameDay or 5Day program have lead times of three weeks or less.
under SIRA 14 ATEX 1192X
under IECEx SIR 14.0064X
Explosion-proof
EncapsulatedCoil
IntrinsicSafety
Explosion-proof
Enclosure The majority of the items listed below are part of the
ASCO Express Shipping program which includes
ASCO SameDay and 5Day products:
Items qualifying for SameDay shipping are guaranteed to ship same business day if the order is received
before 3 P.M. EST with a maximum quantity of 25 pieces.
Items qualifying for 5Day shipping are guaranteed to ship within 5 business days with a maximum quantity of 25 pieces.
Hazardous Locations Product Offering
4. Hazardous Location Solutions
4
2
Pipe
Size
(in)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Operating Pressure
Differential psi (bar)
Max.
Fluid and
Ambient
Temp. °F (˚C)
Brass Body Stainless Steel BodyAir-Inert Gas
Pressure to
Cylinder
Cylinder to
Exhaust Min. Max. Catalog Number Catalog Number
Low Power (1.4 Watt)
3/2 VALVES, UNIVERSAL OPERATION (Normally Closed or Normally Open) with NBR Disc – SIL 3 Capable, Certified by Exida ∆ ≥
1/4 1/16 (2) .08 (.07) .08 (.07) 0 150 (10) 140 (60) EV8314G300 EV8314G301 ≈
3/2 VALVES, NORMALLY CLOSED (Closed when de-energized) with NBR Disc – SIL 3 Capable, Certified by Exida ∆
1/4 5/16 (8) 1.5 (1.29) 1.5 (1.29) ƒ 150 (10) 140 (60) EV8316G301 ¬ EV8316G381 ≈
3/8 5/16 (8) 1.8 (1.37) 1.8 (1.37) ƒ 150 (10) 140 (60) EV8316G302 ¬ EV8316G382 ≈
3/8 5/8 (16) 4 (3.43) 4 (3.43) ƒ 150 (10) 140 (60) EV8316G303 ¬ -
1/2 5/8 (16) 4 (3.43) 4 (3.43) ƒ 150 (10) 140 (60) EV8316G304 ¬ EV8316G384 ≈
3/2 VALVES, UNIVERSAL (Normally Closed or Normally Open) "Quick Exhaust" with CR Diaphragm and NBR Disc
1/4 ¡ .08 (.07) .73 (.63) 5 (0.3) 150 (10) 140 (60) - EV8317G308 ¨≈
4/2 VALVES, Brass Body with NBR Disc
1/4 1/4 (6) .80 (0.69) 1 (0.86) 10 (0.7) 150 (10) 140 (60) EV8344G370 ¨¬ -
3/8 3/8 (10) 1.4 (1.20) 2.2 (1.89) 10 (0.7) 150 (10) 140 (60) EV8344G372 ¨¬ -
1/2 3/8 (10) 1.4 (1.20) 2.2 (1.89) 10 (0.7) 150 (10) 140 (60) EV8344G374 ¨¬ -
Intrinsically Safe
3/2 VALVES, UNIVERSAL OPERATION (NORMALLY CLOSED or NORMALLY OPEN) with NBR Disc – SIL 3 Capable, Certified by Exida ∆ ≥
1/4 1/20 (1.3) .06 (.05) .06 (.05) 0 130/105 (9/7) ≈ 149 (65) JPIS8314B300 -
3/2 VALVES, NORMALLY CLOSED (Closed when de-energized) with NBR Disc or FKM (Suffix V), as Listed – SIL 3 Capable, Certified by Exida ∆
1/4 5/16 (8) 1.5 (1.3) 1.5 (1.3) ƒ 130 (9) 149 (65) JPIS8316B301 ¬ -
3/8 5/16 (8) 1.8 (1.6) 1.8 (1.6) ƒ 130 (9) 149 (65) JPIS8316B302 ¬ -
3/8 5/8 (16) 4 (3.5) 4 (3.5) ƒ 130 (9) 149 (65) JPIS8316B303 ¬ -
1/2 5/8 (16) 4 (3.5) 4 (3.5) ƒ 130 (9) 149 (65) JPIS8316B304 ¬ -
3/4 11/16 (17) 5.5 (4.7) 5.5 (4.7) 10 (0.7) 130 (9) 149 (65) JPIS8316B374 ¬ -
3/2 VALVES, UNIVERSAL (NORMALLY CLOSED or NORMALLY OPEN) "Quick Exhaust" with NBR Diaphragm and NBR Disc
1/4 ¡ .06 (.07) .73 (.63) 5 (0.3) 130 (9) 149 (65) JPIS8317B307 ¨ -
4/2 VALVES, Brass Body with NBR Disc
1/4 1/4 (6) .80 (.69) 1 (.86) 10 (0.7) 130 (9) 149 (65) JPIS8344B370 ¨¬ -
3/8 3/8 (10) 1.5 (1.3) 2.2 (1.9) 10 (0.7) 130 (9) 149 (65) JPIS8344B372 ¨¬ -
1/2 3/8 (10) 1.5 (1.3) 2.2 (1.9) 10 (0.7) 130 (9) 149 (65) JPIS8344B374 ¨¬ -
3/4 3/4 (19) 5.2 (4.5) 5.6 (4.8) 10 (0.7) 130 (9) 149 (65) JPIS8344B376 ¨¬ -
¨ There are two exhaust flows in the exhaust mode (pilot and main). The pilot exhaust must be connected to the main exhaust when the air or inert gas cannot be exhausted to atmosphere.
¡ For "Quick Exhaust" valves, pressure port is 1/16", exhaust port is 1/4".
¬ IMPORTANT: A Minimum Operating Pressure Differential must be maintained between the pressure and exhaust ports. Supply and exhaust piping must be full area, unrestricted.
ASCO flow controls and other similar components must be installed in the cylinder lines only.
ƒ Zero minimum when valve selection gasket is in external position and proper auxiliary air pressure is applied. Minimum 15 psi (1 bar) Operating Pressure Differential when selection gasket
is in the internal position.
≈ Can be used for drynatural gas service with EV prefix.
∆ Safety manual and FMEDA (Failure Modes Effects and Diagnostic Analysis) report available.
≥ SIL 3 Capable, Certified by Exida only valid when used as Normally Closed.
Low Power & Intrinsically Safe
Low Power
• Molded one-piece solenoid with highly efficient solenoid cartridge and special low wattage coil
• Designed for use in automation of plant control systems to provide PLC compatibility and reduced battery drain
Intrinsically Safe
• Designed solely for installation in intrinsically safe or Non-Incendive Field Wiring (NIFW) areas, with properly approved
and sized limiting barriers
• Compatible with supervisory current applications
^ # %
5. Hazardous Location Solutions
4
3
Body
Material
Pipe
Size (in)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Single Solenoid – SIL 3 Capable, Certified by Exida ∆
Operating Pressure Differential psi (bar)
Max. Fluid
Temp. ˚F (˚C)
Catalog
Number
Air-Inert Gas
Min. Max.
Low power - Spool Valves (1.4 Watt)
3/2, 5/2 VALVES, with NBR and PUR Seals, NAMUR Mount
Aluminum 3/2, 5/2 1/4 1/4 (6) .86 (.7) 30 (2) 150 (10) 140 (60) EV8551G301 ¨
316L Stainless Steel 3/2, 5/2 1/4 1/4 (6) .86 (.7) 30 (2) 150 (10) 140 (60) EV8551G309 ¬≈
Intrinsically Safe - Spool Valves
3/2, 5/2 VALVES, with NBR and PUR Seals, NAMUR Mount
Aluminum 3/2, 5/2 1/4 1/4 (6) .86 (.74) 35 (2.4) 130 (9) 149 (65) JPIS8551B301 ¨
316L Stainless Steel 3/2, 5/2 1/4 1/4 (6) .86 (.74) 35 (2.4) 130 (9) 149 (65) JPIS8551B309
¨ 1/8" NPT exhaust for 1/4" aluminum and brass.
¬ Stainless steel construction supplied standard with EV solenoid.
≈ Can be used for drynatural gas service with EV prefix.
∆ Safety manual and FMEDA (Failure Modes Effects and Diagnostic Analysis) report available.
Low Power & Intrinsically Safe
Pipe
Size
(in)
Orifice
Size (in)
Cv Flow
Factor
(Kv=m3
/h)
Operating Pressure
Differential psi (bar) Max. Fluid
Temp. ˚F (˚C)
Brass Body Stainless Steel Body
Watt Rating/
Class of Coil
InsulationMax. AC Max. DC
Catalog Number Catalog Number
Air-Inert
Gas
Water
ƒ
Lt. Oil
@ 300
SSU
Air-Inert
Gas
Water
ƒ
Lt. Oil
@ 300
SSU AC DC AC DC
3-Way EV 8320 Series
UNIVERSAL OPERATION (Pressure at any port)
1/4 1/16 (1.6) 0.09 (0.08) 125 (9) 130 (9) 130 (9) 75 (5) 75 (5) 75 (5) 200(93) 150 (66) EV8320G172 - 10.1/F 11.6/F
1/4 3/32 (2) 0.12 (0.10) 100 (7) 100 (7) 100 (7) 60 (4) 60 (4) 60 (4) 200(93) 150 (66) EV8320G174 EV8320G200 ¬√ 17.1/F 11.6/F
1/4 1/8 (3.2) 0.25 (0.21) 50 (3) 50 (3) 50 (3) 25 (2) 25 (2) 25 (2) 200(93) 150 (66) EV8320G176 - 17.1/F 11.6/F
1/4 11/64 (4.4) 0.35 (0.30) 20 (1) 20 (1) 20 (1) 12 (1) 12 (1) 12 (1) 200(93) 150 (66) EV8320G178 - 10.1/F 11.6/F
NORMALLY CLOSED (Closed when de-energized) – PFDAVG = 6.81 x 10-4
1/4 1/16 (1.6) 0.09 (0.08) 210 (14) 225 (15) 225 (15) 160 (11) 160 (11) 160 (11) 200(93) 150 (66) EV8320G182 - 17.1/F 11.6/F
1/4 3/32 (2) 0.12 (0.10) 150 (10) 150 (10) 150 (10) 115 (8) 115 (8) 115 (8) 200(93) 150 (66) EV8320G184 EV8320G202 ¬√ 10.1/F 11.6/F
1/4 1/8 (3.2) 0.25 (0.21) 85 (6) 85 (6) 85 (6) 60 (4) 60 (4) 60 (4) 200(93) 150 (66) - EV8320G203 ¬√ 10.1/F 11.6/F
NORMALLY OPEN (Open when de-energized)
1/4 1/16 (1.6) 0.09 (0.08) 235 (16) 250 (17) 250 (17) 160 (11) 160 (11) 160 (11) 200(93) 150 (66) EV8320G192 - 17.1/F 11.6/F
1/4 3/32 (2) 0.12 (0.10) 150 (10) 140 (10) 140 (10) 100 (7) 100 (7) 100 (7) 200(93) 150 (66) EV8320G194 - 10.1/F 11.6/F
1/4 1/8 (3.2) 0.25 (0.21) 70 (5) 70 (5) 70 (5) 55 (4) 55 (4) 55 (4) 200(93) 150 (66) EV8320G196 - 10.1/F 11.6/F
¬ Can be used for drynatural gas service with the EV prefix.
√ Constructions standard rated -40˚F (-40˚C) ambient temperature. EVX prefix and TPL # not required.
ƒ Water rating, CSA certified up to 232 psi (16 bar).
3-Way | General Service
8320 Series
• All NPT connections are in the valve body to allow in-line piping
• No Minimum Operating Pressure Differential required
^ # %
^ # %
6. Hazardous Location Solutions
4
4
Pipe
Size
(in)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Operating Pressure Differential psi (bar)
Max. Fluid
Temp.˚F (˚C)
Brass Body
Stainless Steel
Body
Watt Rating/
Class of Coil
Insulation ¬Max. AC Max. DC
Catalog
Number
Catalog
NumberPress. Exh. Press. Exh. Min. ¨
Air-Inert
Gas Water
Lt. Oil ¨
@45 SSU
Air-Inert
Gas Water
Lt. Oil ¨
@45 SSU AC DC AC DC
3-Way EV 8317 Series
NORMALLY CLOSED (Closed when de-energized)
1/4 3/32 (2) 1/4 (6) .20 (.17) .73( .63) 5 (.3) ≠ 150 (10) 150 (10) 95 (7) 75 (5) 55 (4) 30 (2) 180 (82) 104 (40) EV8317G035 EV8317G036 10.1/F 11.6/F
¨ Rating for 8321 valves established with 300 SSU light oil. ≠ Minimum Operating Pressure Differential on light oil is 10 psi (0.7 bar).
Pipe
Size
(in)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
2-1
Cv Flow
Factor
(Kv=m3
/h)
1-3
Operating Pressure Differential psi (bar)
Max. Fluid
Temp.˚F (˚C) ¨
Brass Body Stainless Steel Body Watt Rating/
Class of Coil
InsulationMax. AC Max. DC
Catalog
Number
Catalog
Number
Air-Inert
Gas
Water
¡
Light Oil
@ 45 SSU
Air-Inert
Gas
Water
¡
Light Oil
@ 45 SSU AC DC AC DC
3-Way EV 8314 Series
UNIVERSAL OPERATION (Pressure at any port)
1/8 3/64 (1.2) 0.05 (0.04) 0.06 (0.05) 200 (14) 200 (14) 200 (14) 200 (14) 200 (14) 200 (14) 200 (93) 200 (93) EV8314H041 - 10.1/F 11.6/F
1/4 3/64 (1.2) 0.05 (0.04) 0.06 (0.05) 200 (14) 200 (14) 200 (14) 200 (14) 200 (14) 200 (14) 200 (93) 200 (93) EV8314H006 - 10.1/F 11.6/F
NORMALLY CLOSED (Closed when de-energized) – PFDAVG = 4.77 x 10-4
1/4 3/32 (2.4) 0.15 (0.13) 0.20 (0.17) 205 (14) 205 (14) 190 (13) 150 (10) 120 (8) 90 (6) 200 (93) 200 (93) EV8314H035 EV8314H121 10.1/F 11.6/F
¨ Maximum fluid temperature for light oil @ 45 SSU is 180˚F (82˚C). ¡ Water rating, CSA certified up to 232 psi (16 bar).
Pipe
Size
(in)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Maximum Operating
Pressure Differential psi (bar) Max. Fluid
Temp.˚F
(˚C)
Brass Body
316 Stainless
Steel Body
Const.
Ref.
Watt Rating/
Class of Coil
Insulation
Ports
1-2
Ports
2-3 Air-Inert Gas Water
Light Oil
@ 300 SSU Catalog Number Catalog Number AC DC
3-Way EV 8327 Series
UNIVERSAL OPERATION (Pressure at any port)
1/4 1/4 (6) .49 (.42) .56 (.48) 150 (10) 150 (10) 150 (10) 176 (80) EV8327G041 – 1 12.0/F 11.6/F
1/4 1/4 (6) .49 (.42) .56 (.48) 150 (10) 150 (10) 150 (10) 248 (120) – EV8327G042 1 12.0/F 11.6/F
3-Way | General Service
8317 Series
• Designed for quick exhaust to 0 psi through the exhaust orifice
• Resilient seated poppets for tight shutoff
8314 Series
• No minimum operating pressure required
• Simplest valve for basic 3-way piloting operation, only one spring and two moving parts
8327 Series
• Designed for high flow piloting with no minimum operating pressure required
• Balanced poppet construction for high flow at minimum power levels
^ # %
7. Hazardous Location Solutions
4
5
Body
Material
Pipe
Size
(in)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Single Solenoid – SIL 3 Capable, Certified by Exida ¨
Watt Rating/
Class of Coil
Insulation
Operating Pressure Differential psi (bar) Max. Fluid
Temp.˚F (˚C)
Catalog
Number
Air-Inert Gas
Min. Max. AC Max. DC AC DC AC DC
3-Way EV 8551 Series - NAMUR Mount Spool Valves
316L Stainless Steel 3/2, 5/2 1/4 1/4 (6) .86 (.75) 30 (2) 150 (10) 120 (8.2) 140 (60) 120 (48) EV8551G409 10.1/F 11.6/F
¨ Safety manual and FMEDA (Failure Modes Effects and Diagnostic Analysis) report available.
Pipe
Size
(in)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Operating Pressure Differential psi (bar)
Max. Fluid
Temp.˚F (˚C) Brass Body
Watt Rating/
Class of Coil
InsulationMax. AC Max. DC
Press. Exh. Inlet Exh. Min.
Air-Inert
Gas Water
Lt. Oil @
50 SSU
Air-Inert
Gas Water
Lt. Oil @
50 SSU AC DC Catalog Number AC DC
4-Way EV 8345 Series
SINGLE SOLENOID
1/4 1/16 (2) 3/32 (2) .09 (.08) .09 (.08) 10 (.07) 150 (10) 150 (10) 150 (10) 100 (7) 100 (7) 100 (7) 180 (82) 104 (40) EV8345G001 10.1/F 11.6/F
4-Way | General Service
3-Way | General Service
8551 Series
• Unique spool design combines hard T-seals and flexible o-rings which provides bubble-tight shutoff, resistance to
dirt and sticking, and multimillion cycle life controlling air or inert gas
8345 Series
• Compact 4-way valves for low flow applications
^ # %
^ # %
8. Hazardous Location Solutions
4
6
Pipe
Size
in (mm)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Operating Pressure Differential psi (bar)
Ambient Temp. °F (°C)
Brass Stainless
Watt Rating/
Class of
Coil Insulation
Min.
Max. AC Max. DC
Air-Inert
Gas Water
Light Oil
@ 300
SSU
Air-Inert
Gas Water
Light Oil
@ 300
SSU Min Max. AC Max. DC AC DC
3/2 VALVES, UNIVERSAL, DIRECT ACTING, BALANCED POPPET
1/4 0.22 (5.7) 0.52 (0.45) 0 (0) 145 (10) 145 (10) - 145 (10) 145 (10) - -4 (-20) 248 (120) 248 (120) NF8327B101 ¨ WSNF8327B102 3.7 3.6
1/4 0.22 (5.7) 0.52 (0.45) 0 (0) 145 (10) 145 (10) - 145 (10) 145 (10) - -58 (-50) 140 (60) 140 (60) NF8327B111 ¬ WSNF8327B112 3.7 3.6
¨ Fluoroelastomer sealings and poppets. ¬ Fluorosilicone sealings and poppets.
3/2 VALVES, DIRECT ACTING, UNIVERSAL
1/4 0.13 (3.2) 0.24 (0.21) 0 (0) 49 (3.4) 49 (3.4) 50 (3.4) 25 (1.7) 25 (1.7) 25 (1.4) 32 (0) 126 (52) 104 (40) NF8320B176 WSNF8320A201 17.1 11.6
1/4 0.09 (2.4) 0.12 (0.1) 0 (0) 102 (7) 102 (7) - 58 (4) 58 (4) - -4 (-20) 194 (90) 194 (90) NF8320B174 WSNF8320A200 16.7 11.2
3/2 VALVES, DIRECT ACTING, NORMALLY CLOSED
1/4 0.09 (2.4) 0.12 (0.1) 0 (0) 145 (10) 145 (10) - 116 (8) 116 (8) - -4 (-20) 194 (90) 194 (90) NF8320A184 WSNF8320A202 10.5 11.2
3/2 VALVES, DIRECT ACTING, NORMALLY OPEN
1/4 0.09 (2.4) 0.12 (0.1) 0 (0) 73 (5) 73 (5) - 58 (4) 58 (4) - -4 (-20) 194 (90) 194 (90) NF8320A196 WSNF8320A205 10.5 11.2
1/4 0.09 (2.4) 0.12 (0.1) 0 (0) 145 (10) 145 (10) - 102 (7) 102 (7) - -4 (-20) 194 (90) 194 (90) NF8320A194 WSNF8320A204 10.5 11.2
3/2 VALVES, ZERO MINIMUM, NORMALLY CLOSED
1/4 0.31 (8) 1.5 (1.3) 0 (0) √ 145 (10) - - 116 (8) - - -4 (-20) 176 (80) 176 (80) NF8316A001 ƒ WSNF8316A081V ≈ 10.5 11.2
1/4 0.31 (8) 1.5 (1.3) 0 (0) √ 145 (10) - - 145 (10) - - -4 (-20) 140 (60) 140 (60) NF8316A301 ƒ WSNF8316A381V ≈ 1.8 1.8
3/8 0.31 (8) 1.7 (1.5) 0 (0) √ 145 (10) - - 116 (8) - - -4 (-20) 176 (80) 176 (80) NF8316A002 ƒ WSNF8316A082V ≈ 10.5 11.2
3/8 0.31 (8) 1.7 (1.5) 0 (0) √ 145 (10) - - 145 (10) - - -4 (-20) 140 (60) 140 (60) NF8316A302 ƒ WSNF8316A382V ≈ 1.8 1.8
3/8 0.63 (16) 3.9 (3.4) 0 (0) √ 145 (10) - - 116 (8) - - -4 (-20) 176 (80) 176 (80) NF8316A003 ƒ - 10.5 11.2
3/8 0.63 (16) 3.9 (3.4) 0 (0) √ 145 (10) - - 145 (10) - - -4 (-20) 140 (60) 140 (60) NF8316A303 ƒ - 1.8 1.8
1/2 0.63 (16) 3.9 (3.4) 0 (0) √ 145 (10) - - 116 (8) - - -4 (-20) 176 (80) 176 (80) NF8316A004 ƒ WSNF8316A084V ≈ 10.5 11.2
1/2 0.63 (16) 3.9 (3.4) 0 (0) √ 145 (10) - - 145 (10) - - -4 (-20) 140 (60) 140 (60) NF8316A304 ƒ WSNF8316A384V ≈ 1.8 1.8
√ Zero minimum when valve selection gasket is in external position and proper auxiliary air pressure is applied. Minimum 15 psi (1 bar) operating pressure differential when selection gasket is in the internal position.
ƒ Nitrile seal materials. ≈ Fluoroelastomer seal materials.
3/2 VALVES, PILOT OPERATED, SPOOL TYPE, NORMALLY CLOSED
1/4 0.24 (6) 0.87 (0.75) 30 (2) 145 (10) - - 145 (10) - - -13 (-25) 140 (60) 140 (60) NF8551B405 ≤ 10.5 11.2
1/4 0.24 (6) 0.87 (0.75) 30 (2) 145 (10) - - 145 (10) - - -40 (-40) 176 (80) 176 (80) - WSNF8551A413 10.5 11.2
≤ Aluminum body
3 and 4-Way ATEX Pilot Valves
The following valves are not part of the ASCO Express Shipping program.
Typical lead times are three weeks or less. Please consult the factory for specific lead times.
• Worldwide approvals for use in potentially explosive atmospheres: ATEX, IECEx, INMETRO, TR CU, and NEPSI
• Enclosure provided with a 1/2 NPT threaded entry hole for a broad range of cable glands
• IP67 ingress protection
• Operator can be rotated through 360° to select the most favorable position for cable entry
3-Way ATEX Pilot Valves
Pipe
Size
(in)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Operating Pressure
Differential psi (bar)
Ambient
Temp. °F (°C) Stainless Steel Body
Wattage Rating/
Coil Insulation ClassAir/Natural Gas
Min. Max. Catalog Number ¡Pressure Exhaust Pressure Exhaust Min. Max. 12 or 24 VDC
NORMALLY CLOSED (Closed when de-energized)
1/4 1/16 (1.6) 3/32 (2.4) 0.08 (0.07) 0.16 (0.14) 0 150 (10) ¨ -4 (-20) 122 (50) EF8320A511 1.3/F
¨ Light Oil @ 300 SSU Max. Pressure 125 psi (8.6 bar). ¡ SIL 3 Capable, Certified by Exida
Harsh Environment
• Designed for harsh, hazardous environments, including offshore applications
• Low power consumption suitable for solar panels and PLC/DCS applications
^ # %
|
9. Hazardous Location Solutions
4
7
Pipe
Size
in (mm)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Operating Pressure Differential psi (bar)
Ambient Temp. °F (°C)
Aluminum Stainless
Watt Rating/
Class of
Coil Insulation
Min.
Max. AC Max. DC
Air-Inert
Gas Water
Light Oil
@ 300
SSU
Air-Inert
Gas Water
Light Oil
@ 300
SSU Min
Max.
AC
Max.
DC AC DC
5/2 VALVES, PILOT OPERATED, SPOOL TYPE, SINGLE SOLENOID
1/4 0.24 (6) 0.87 (0.75) 0 (0) 145 (10) - - 145 (10) - - -13 (-25) 140 (60) 140 (60) NF8551B417 - 10.5 11.2
1/4 0.24 (6) 0.87 (0.75) 0 (0) 145 (10) - - 145 (10) - - -13 (-25) 140 (60) 140 (60) NF8551B317 - 1.9 1.9
1/4 0.24 (6) 0.87 (0.75) 0 (0) 145 (10) - - 145 (10) - - -40 (-40) 176 (80) 176 (80) - WSNF8551A421 10.5 11.2
1/4 0.24 (6) 0.87 (0.75) 0 (0) 145 (10) - - 145 (10) - - -40 (-40) 176 (80) 176 (80) - WSNF8551A321 1.9 1.9
5/2 VALVES, PILOT OPERATED, SPOOL TYPE, DUAL SOLENOID
1/4 0.24 (6) 0.87 (0.75) 0 (0) 145 (10) - - 145 (10) - - -13 (-25) 140 (60) 140 (60) NF8551B418 10.5 11.2
1/4 0.24 (6) 0.87 (0.75) 0 (0) 145 (10) - - 145 (10) - - -40 (-40) 176 (80) 176 (80) - WSNF8551A422 10.5 11.2
1/4 0.24 (6) 0.87 (0.75) 0 (0) 145 (10) - - 145 (10) - - -40 (-40) 140 (60) 140 (60) - WSNF8551A322 1.9 1.9
5/2 VALVES, PILOT OPERATED, SPOOL TYPE, SINGLE SOLENOID, NAMUR
1/4 0.24 (6) 0.87 (0.75) 0 (0) 145 (10) - - 145 (10) - - -13 (-25) 140 (60) 140 (60) NF8551B401 - 10.5 11.2
1/4 0.24 (6) 0.7 (0.6) 0 (0) 145 (10) - - 145 (10) - - -40 (-40) 176 (80) 176 (80) - WSNF8551A409 10.5 11.2
1/4 0.24 (6) 0.7 (0.6) 0 (0) 145 (10) - - 145 (10) - - -40 (-40) 176 (80) 176 (80) - WSNF8551A309 1.9 1.9
Pipe
Size
in (mm)
Orifice
Size
in (mm)
Cv Flow
Factor
(Kv=m3
/h)
Operating Pressure Differential psi (bar)
Ambient
Temp. °F (°C)
Brass Stainless
Watt Rating/
Class of
Coil Insulation
Min.
Max. AC Max. DC
Air-Inert
Gas Water
Light Oil
@ 300
SSU
Air-Inert
Gas Water
Light Oil
@ 300
SSU Min
Max.
AC
Max.
DC AC DC
3/2 VALVES, MANUAL RESET, NO VOLTAGE RELEASE
1/4 0.22 (5.7) 0.52 (0.45) 0 (0) 145 (10) 145 (10) - 145 (10) 145 (10) - -4 (-20) 248 (120) 248 (120) NF8327B121 WSNF8327B122 3.7 3.6
1/4 0.22 (5.7) 0.52 (0.45) 0 (0) 145 (10) 145 (10) - 145 (10) 145 (10) - -40 (-40) 104 (40) 104 (40) NF8327B171 WSNF8327B172 3.7 3.6
4-Way ATEX Pilot Valves
3-Way ATEX Pilot Valves | Manual Reset
EV Explosion-proof Encapsulated Coil
JPIS Intrinsically Safe
NF Aluminum Epoxy Coated
WSNF 316L Stainless Steel
Refer to Specification Section AC 120/60, 110/50,
230/50
DC 24V
EV 8316G301 24/DC
Enclosure Base Catalog Number Voltage
ATEX, IECEx
NF Aluminum Epoxy Coated
WSNF 316L Stainless Steel
Refer to Specification Section AC 230/50
DC 24V
22560 NEPSI
26350 INMETRO
18460 TR CU
WSNF X 225608327B212 24/DC
Enclosure Base Catalog Number VoltageApproval
NEPSI, INMETRO, and TR CU (ATEX, IECEx Standard)
How to Order
The following valves are not part of the ASCO Express Shipping program.
Typical lead times are three weeks or less. Please consult the factory for specific lead times.|
10. 8
DEFINITION OF A LOCATION WHERE A POTENTIALLY EXPLOSIVE ATMOSPHERE MAY OCCUR
The classification of an installation into distinct zones has two objectives (according to ATEX 1999/92/EC):
- To define the categories of equipment used in the zones indicated, provided they are suitable for gases, vapours or mists and/or dusts.
- To classify hazardous places into zones to prevent ignition sources and be able to select the correct electrical and non-electrical
equipment accordingly. The zones are defined on the basis of the occurrence of explosive gaseous or dusty atmospheres.
GAS GROUPS
Group II: Equipment intended for use in places with an explosive gas atmosphere other than mines susceptible to firedamp.
Group I: Equipment intended for use in mines susceptible to firedamp.
Zone Category (ATEX 94/9/EC) Presence of explosive atmospheres
zone 0 1 G¨
Continuous, frequent or for long periods
Group II zone 1 2 G Intermittent in normal operation (likely)
zone 2 3 G Occasional or for short periods (never in normal operation)
Group I M1¨
Presence (methane, dust)
(mines) M2 Risk of presence (methane, dust)
DUST GROUPS (according to the fifth edition, IEC 60079-0, 2011 (EN 60079-0, 2012)¡
)
Group III: Equipment intended for use in places with an explosive dust atmosphere other than mines susceptible to firedamp.
Zone Category (ATEX 94/9/EC) Presence of explosive atmospheres
zone 20 1 D ¨
Continuous, frequent or for long periods (air/cloud of combustible dust)
Group III zone 21 2 D Intermittent in normal operation
zone 22 3 D Occasional or for short periods
Equipment Group
II Industrial
Equipment Category
2 High Protection
Suitability of Use
G Gas
Mark for Explosion Proof Protection Method
d Flameproof
Gas/Dust Group
IIC Hydrogen/Acetylene
Equipment Protection Level
Gb High Protection (Gas)
Temperature Code
T3 200˚C
T4 135˚C
T5 100˚C
T6 85˚C
II 2 G Ex IIC
Encapsulation
Gasses and Vapors, Dust
mb
Encapsulation
Gasses and Vapors, Dust
mbd T3...T6
Temperature Code
T200
T135
T100
T85
T85
Gb
Equipment Group
II Industrial
Equipment Category
2 High Protection
Suitability of Use
D Dust
Mark for Explosion Proof Protection By Enclosure
tb Dust
Gas/Dust Group
IIIC Conductive Dust
Equipment Protection Level
Db High Protection (Dust)
Temperature Code
6 Dust Tight
7 Temporary Submersion
II 2 D Ex IIICtb IP67Db
Safety Code Explained
¨
G = gas ; D = dust ; M = mines
¡
Including IEC 61241-0 (dusts)
Reference Guide
11. Reference Guide
4
9
Typical Gas/Dust Group
Gas
Propane IIA
Ethylene IIB
Acetylene IIC
Dust
Combustible Fyings IIIA
Non-Conductive Dust IIIB
Conductive Dust IIIC
Level of Protection Against Solid Objects,
Materials or Dust
Level of Protection Against Water
and Other Liquids
0 No protection 0 No protection
1 Protected against solid objects down to 50 mm 1 Protection against vertically fall- ing drops of water (e.g. conden- sation)
2 Protected against solid objects down to 12 mm 2 Protection against direct sprays of water up to 15 degrees from vertical
3 Protected against solid objects down to 2.5 mm 3 Protection against direct sprays of water up to 60 degrees from vertical
4 Protected against solid objects down to 1 mm 4
Protection against water sprayed from all directions - limited in- gress
permitted
5
Protected against dust, limited ingress
(no harmful deposits)
5
Protection against low pressure jets of water from all directions - limited
ingress permitted
6 Totally protected against dust 6
Protection against low pressure jets of water, limited ingress per- mitted
(e.g. ship deck)
7 Protected against the effect of immersion between 6 in. / 15 cm and 3 ft / 1m
8 Protected against long periods of immersion under pressure
Gas & Dust Groups Ingress Protection (i.e. IP67)
Equipment
Group
Equipment
Category
Equipment
Protection Level
(EIC)
Level of
Protection
Hazard Zone (Flammable Material Present)
Gas Dust
0 - 20
(Continuosly)
1 - 2
(Intermittently)
2 - 22
(Abnormally)
I
M 1 Ma Very High - - Operable in Ex atmosphere
M 2 Mb High - - De-energized in Ex atmosphere
II
1
Ga Very High G - 0 1 2
Da Very High - D 20 21 22
2
Gb High G - - 1 2
Db High - D - 21 22
3
Gc Normal G - - - 2
Dc Normal - D - - 22
Groups, Categories, & Zones (i.e. II 2 G Ex d IIC Gb T6 … T4)
Flammable /
Combustable
Substance
Protection
Symbol
Zones
Description0 1 2
Gas
d l l Flameproof Enclosure
p l l Pressurised enclosure
q l l Powdery filling
o l l Immersion
e l l Increased safety
ia/ib/ic l l l Intrinsically safety
n l Non incendiaire
ma/mb/mc l l l Encapsulation
Dust
ia l Intrinsically safety
tD l Flameproof Enclosure
mD l l Encapsulation
Protection Methods
12. Reference Guide
4
10
CLASSIFICATION OF GASES INTO EXPLOSION GROUPS
Group I: Electrical equipment intended for use in the underground parts of mines, and to those parts of surface installations
of such mines, likely to become endangered by firedamp and/or combustible dust.
Group II: Electrical equipment intended for use in other places likely to become endangered by explosive atmospheres
(surface industries).
¨ Temperature of a hot surface able to ignite a gas mixture.
The ignition temperature of the gas mixture must be higher than the maximum surface temperature. In practice, a 10 to 20% safety margin is observed
between the ignition temperature and the rated nameplate temperature.
The ignition temperature of a cloud of dust is generally between 300 and 700°C. At 150 to 350°C, the ignition temperature of a layer of dust is far below
that of a dust cloud. A burning dust layer can initiate a dust explosion if brought in contact with a combustible dust cloud, so these values must be
taken into account to limit the risk.
CLASSIFICATION OF DUSTS INTO EXPLOSION GROUPS (according to the fifth edition, IEC 60079-0, 2011)
Group III: Electrical equipment intended for use in places with an explosive dust atmosphere other than mines susceptible
to firedamp.
Group III is subdivided into IIIA (combustible flyings), IIIB (non-conductive dust) and IIIC (conductive dust).
Combustible dust: Finely divided solid particles, 50 µm or less in nominal size, which may be suspended in air, may settle
out of the atmosphere under their own weight, may burn or glow in air, and may form explosive mixtures with air at atmos-
pheric pressure and normal temperatures.
Non-conductive dust: Combustible dust with electrical resistivity greater than 103 Ω.m
Conductive dust: Combustible dust with electrical resistivity equal to or less than 103 Ω.m
¨ The maximum surface temperature must be identified and suitable for the specified type of dust present (equipment marked for zone 21).
In order to prevent the ignition of dusty atmospheres, the maximum surface temperature needs to be limited. It must not exceed:
- 2/3 of the auto-ignition temperature of the specified cloud of dust,
- the auto-ignition temperature of a 5 mm layer of dust minus 75°C.
Groups Gas Ignition Temperature (°C) ¨
Temperature Class
T1 T2 T3 T4 T5 T6
I methane (firedamp)
II
A
acetone 540 •
acetic acide 485 •
ammonia 630 •
ethane 515 •
methylene chloride 556 •
methane (CH4) 537 •
carbon monoxyde 605 •
propane 470 •
n-butane 365 •
n-butyl 370 •
n-hexane 240 •
acetaldehyde 140 •
ethyl ether 160 •
ethyl nitrite 90 •
B
ethylene 425 •
ethyl oxyde 429-440 •
hydrogen sulfide 270 •
C
acetylene (C2H2) 305 •
carbon disulphide (CS2) 102 •
hydrogen (H2) 560 •
Combustible dust Ignition Temperature (˚C) ¨ Self-ignition temperature of dust layers (˚C) ¨
Starch 440 290
Aluminium 530 280
Cotton 560 350
Cereals 420 290
Magnesium 610 410
Soybean 500 245
Sulphur 280 280
Tobacco 450 300
13. Reference Guide
4
11
Valve Parts in Contact with Fluid
Valve Series
8262 8320 8327 8316 8551 / 8553
Body 303 SS BR/303 SS BR/316 SS BR 316 SS AL/BR 316 SS
Core and Plugnut 430F SS 430F SS 430F SS 430F SS 430F SS 430F SS 430F SS
Core Tube 303 SS 303 SS 303 SS 303 SS 303 SS 303 SS 303 SS
Disc and Seals Sealings & Poppet (8327) NBR NBR FPM/VMQ/FVMQ NBR NBR NBR/PUR VMQ/PUR
Diaphragms (8316) - - - NBR FPM
Disc Holder & Core Guide - CA - - - POM POM
Springs 303 SS 303 SS 303 SS 303 SS 303 SS 303 SS 303 SS
Shading Coil SILVER Copper/Silver - Copper Silver - -
Rider Ring - - PTFE PTFE PTFE PTFE PTFE
ATEX Wetted Parts
Enclosure Type NF WSNF JPIS EV
Conduit 1/2 NPT 1/2 NPT 1/2 NPT 1/2 NPT
Solenoid Enclosure Chromated Aluminum epoxy coated 316L Stainless steel Aluminum Epoxy Encapsulated
Bonnet Steel (zinc plated) Stainless steel (nickel plated) 430F Stainless steel 416 Stainless steel
Core, Core Tube & Plugnut 430F Stainless Steel 430F Stainless steel 430F Stainless steel
Shading coil Copper or silver Not Applicable Copper or silver
Nameplate Stainless Steel 304 Stainless steel 304 Stainless steel
Electrical Connection Screw Terminals Screw Terminals Lead Wires
Fasteners and Screws Stainless steel 316 Stainless Steel Not Applicable
Materials of construction
TEMPERATURE CLASS
The temperature classification is based on the maximum surface temperature of equipment. That is the highest temperature
any part of or the entire surface of an electrical device can reach under the most unfavorable operating conditions capable
of igniting a surrounding explosive atmosphere.
Group I: Temperature ≤ 150°C or ≤ 450°C according to coal dust accumulation on equipment
Group II: Equipment must be classified and marked:
- preferably with the temperature class (T classification)
- defined by the surface temperature or, limited to the specified flammable gases or dusts for which it is approved,
if necessary (and marked accordingly).
Temperature Class Maximum Temperature (˚C) Ignition Temperature (˚C)
T1 450 > 450
T2 300 > 300
T3 200 > 200
T4 135 > 135
T5 100 > 100
T6 85 > 85
14. Reference Guide
4
12
Protection
Symbol
Zones
Description Drawing
0 1 2
d
e
i
ia
R L
CUib
ic
m
ma
mb
mc
n
o
p
q
Type of protection in which the parts which can ignite an explosive
atmosphere are placed in an enclosure which can withstand the
pressure developed during an internal explosion of an explosive
mixture and which prevents the transmission of the explosion to
the explosive atmospheres surrounding the enclosure.
Type of protection in which measures are applied so as to
prevent with a higher degree of safety the possibility of exces-
sive temperatures and of the occurrence of arcs or sparks in
the interior and on the external parts of electrical apparatus,
which does not produce them in normal service.
Type of protection when no spark or any thermal effect in the
circuit, produced in the test conditions prescribed in the
standard (which include normal operation and specific fault
conditions), is capable of causing ignition.
Type of protection in which the parts which can ignite an
explosive atmosphere are enclosed in a resin sufficiently
resistant to the environmental influences in such a way that this
explosive atmosphere cannot be ignited by either sparking or
heating which may occur within the encapsulation.
Method of protection for electrical equipment designed so that
it will not ignite the surrounding explosive atmosphere in normal
operation and under certain fault conditions specified in the
standard. There are 4 categories of equipment: nA (non-
sparking), nC (enclosed break), nR (restricted breathing), nL
(limited energy).
Type of protection in which the electrical apparatus is
immersed in oil.
Type of protection in which the protective inert gas inside the
enclosure is maintained at a higher pressure than that of the
surrounding atmosphere.
Type of protection in which the enclosure is filled with a
material in a finely granulated state.
TYPES OF PROTECTION FOR ELECTRICAL APPARATUS FOR USE IN GAS ATMOSPHERES.
It is the comprehensive range of protective measures applied to an electrical apparatus to prevent possible ignition of the
surrounding atmosphere.
15. Reference Guide
4
13
Protection
symbol
Zones
Description Drawing
0 1 2
tD
mD
maD
mbD
iD
Electrical apparatus protected by enclosure and
surface temperature limitation for use in areas where
combustible dust may be present in quantities which
could lead to a fire or explosion hazard. The ignition
protection is based on the limitation of the maximum
surface temperature of the enclosure and other surfaces
which may come into contact with dust and on the
restriction of dust ingress into the enclosure by the use
of “dust-tight” or “dust-protected” enclosures. This
standard is not applicable to electrical apparatus
intended for use in underground parts of mines as well
as those parts of surface installations of such mines
endangered by firedamp and/or combustible dust;
nor does it take account of any risk due to an emission
of flammable or toxic gas from the dust.
Electrical apparatus protected by encapsulation type of
protection ‘mD’ and surface temperature limitation for
use in areas where combustible dust may be present in
quantities which could lead to a fire or explosion
hazard. Type of protection in which the parts which can
ignite an explosive atmosphere are enclosed in a resin
sufficiently resistant to environmental influences in such
a way that a dust cloud or layer cannot be ignited
during installation or operation.
Intrinsically safe apparatus intended for use in potentially
explosive dust cloud or dust layer environments and for
associated apparatus that is intended for connection to
intrinsically safe circuits which enter such environments.
Applicable to electrical apparatus in which the electrical
circuits themselves are incapable of causing an explo-
sion in the surrounding combustible dust environment.
R L
CU
TYPES OF PROTECTION FOR ELECTRICAL APPARATUS FOR USE IN THE PRESENCE OF COMBUSTIBLE
DUST (EN 60241-0)
Applicable to electrical apparatus for use in areas where combustible dust may be present in quantities which could lead to a
fire or explosion hazard.
EN 61241-1 = tD ; EN 61241-18 = mD ; EN 61241-11 = iD
16. ASCO Valve, Inc. (USA) | Tel (1) 800.972.2726 | www.ascovalve.com | e-mail: info-valve@asco.com 06/15 — V7715
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