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Excess Flow Valves

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Excess Flow Valves Implementation Challenges Bill Norton PIPES Act of 2006 EFVs Anthony Cadorin City Of Mesa Sizing Procedures EFV Sizing Excess Flow Valves Prior ... – PowerPoint PPT presentation

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Title: Excess Flow Valves


1
Excess Flow Valves Implementation Challenges
  • Bill Norton
  • PIPES Act of 2006
  • EFVs
  • Anthony Cadorin
  • City Of Mesa Sizing Procedures
  • EFV Sizing

2
Excess Flow Valves
Bill Norton
3
Prior Legislation
  • RSPA Final Rule, February 3rd 1998, Effective
    February 3rd 1999
  • Required either notification of availability or
    installation

4
New Legislation
Installation on single family residential service
if
  • Installed or replaced after June 1, 2008
  • Operates continuously throughout the year at a
    pressure not less than 10 psig
  • Is not connected to a main with prior experience
    with contaminants
  • Non-interference with necessary operation or
    maintenance activities
  • Commercially available

5
New Legislation
Further Considerations
  • Annually reportable
  • Reportable procedure has not been determined
  • Reference to Sec.9.(3)(A-B), and (6)

6
The Big Day
  • June 1, 2008
  • PIPES Act of 2006

7
What is an EFV?
  • Self-actuating valve
  • In-line mechanical device
  • Responds to the high-pressure differential
  • Designed to activate when a rupture occurs
  • Stop or minimize the flow of gas

8
How EFVs Function
Closed Gas Flow Is Blocked
Open Gas Flows Unobstructed
Activation is DIRECTLY dependent upon Gas Velocity
9
Types of EFVs
  • Positive Shutoff (EFVNB)
  • 100 shut off
  • Manually reset
  • Bleed-by (EFVB)
  • Approximately 97 shut off
  • Self-resetting
  • lt20 standard cubic feet of gas per hour (Scfh) _at_
    10 psig

10
Sizes
  • Typical Sizes
  • - 400 Series - 1000-1200 Series
  • - 800 Series - 1800 Series
  • EFVs are designated using their size
  • I.e. 400 series
  • At 10 psig, 400 standard cubic feet of gas per
    hour (Scfh) will cause the excess flow valve to
    trip

11
Applications
Mechanical Coupling Mechanical Tapping Tee PE
Stick Fusion Tapping Tee Shut Off Valve
12
Who is using EFVs?
  • Ohio 450,000
  • Pennsylvania 200,000
  • Massachusetts 176,000
  • Minnesota 113,000
  • Mostly Northeastern states
  • Voluntary not state or federally mandated

13
Questionnaire
  • Conducted to determine industry standards
  • 14 operators surveyed across U.S.
  • Pacific Gas Electric
  • NW Natural Gas
  • Citizens Gas Coke
  • New Jersey Natural Gas
  • St. Lawrence Gas

14
Industry Preference
  • PE sticks or In-line 86
  • Ease of replacement
  • In-line and Tapping Tees 7
  • Tapping Tee 7
  • Positive Shutoff 29
  • Bleed-by 71

15
Common Basic Practices
  • Not installed where line pressure is 10 psig or
    lower
  • Unrealized trip flow rate
  • Pressure drop may affect flow rate
  • Design pressure minimum

16
Common Basic Practices
  • Not installed where a high amount of contaminants
    are in the line (water, dust, grease, etc.)
  • Spring failure
  • False trips
  • Valve malfunction

17
Common Basic Practices
  • Not installed on commercial applications
  • Transient nature of businesses
  • Additional load w/o notification
  • Breadth of capacity
  • Size of service line requirements

18
Common Basic Practices
  • Not installed in emergency situations
  • Not enough time to properly size the EFV which
    could potentially result in tripping the EFV
    during normal operational use

19
Surveyed Issues
  • False Trips
  • Line contaminants
  • Improper Installation
  • Third Party Damages

20
Further Consideration
  • Not installed on
  • Multi-family homes
  • Branch services
  • Multi-metered manifolds

21
Challenges for Mesa
  • O M Construction Practices Emergency Plan
    modifications
  • Pressure testing and purging procedures
  • EFV Sizing and installation
  • Bleed-by feature
  • Service annotation Drawings and field
  • Training
  • Implementation

22
EFV SizingAnthony Cadorin
23
City of Mesa sizing table
24
Why a sizing table?
  • Meter size provides an upper limit on the amount
    of gas that a line will flow
  • Line size (diameter) sets up the maximum length
    that a given EFV will protect

25
Creating a sizing table for Gas City
Not an option
Not an option
?
Not an option
26
Creating a sizing table for Gas City
  • EFVs must be sized at the lowest predicted
    operating pressure
  • Gas City 10 psig
  • Maximum load is determined by the meter
  • 400 Scfh per meter manufacturer
  • Go to EFV manufacturers flow rates for trip
    points

27
Creating a sizing table for Gas City
Minimum system pressure 10 psig
EFV Inc. 400 Series EFV
This EFV will work
28
Creating a sizing table for Gas City
  • Maximum service length protected
  • Gas City lowest predicted operating pressure 10
    psig
  • EFV Inc. 400 Series EFV maximum trip point _at_ 10
    psig 615 Scfh
  • Pressure drop across EFV 0.66 psig per
    manufacturer (include in ?P calculation
  • Use the IGT improved flow equation and solve
    for length L

29
Creating a sizing table for Gas City
Not an option
Not an option
Not an option
30
Creating a sizing table for Gas City
31
Typical Appliance Loads
224 Scfh 250 Class Meter
624 Scfh! New meter required!
32
Questions?
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