{"id":5799,"date":"2026-06-02T02:02:04","date_gmt":"2026-06-02T02:02:04","guid":{"rendered":"https:\/\/www.pipetechservice.com\/?p=5799"},"modified":"2026-06-13T12:31:55","modified_gmt":"2026-06-13T12:31:55","slug":"line-stopping-bypass-calculation-asme-b31-4-how-to-prevent-high-velocity-scour-in-piggyback-operations","status":"publish","type":"post","link":"https:\/\/www.pipetechservice.com\/es\/line-stopping-bypass-calculation-asme-b31-4-how-to-prevent-high-velocity-scour-in-piggyback-operations\/","title":{"rendered":"Line Stopping Bypass Calculation (ASME B31.4): How to Prevent High-Velocity Scour in Piggyback Operations"},"content":{"rendered":"<p><strong>Piggyback line stopping requires diverting 85\u201395% of total flow through a bypass to keep annular velocity below 2.5 m\/s. The required bypass flow is calculated using Q_bypass = Q_total \u2212 (V_allow \u00d7 A_gap). If bypass is undersized, annular velocity can exceed 4\u201310 m\/s, causing severe vibration and rapid stopping bar failure.<\/strong><\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-quick-calculation-box\">Quick Calculation Box<\/h2>\n\n\n\n<p><strong>Bypass flow for line stopping is calculated as:<\/strong><\/p>\n\n\n\n<p><strong>Q_bypass = Q_total \u2212 (V_allow \u00d7 A_gap)<\/strong><\/p>\n\n\n\n<p>Where:<\/p>\n\n\n\n<ul class=\"wp-block-list\">\n<li>Q_bypass = Required bypass flow (m\u00b3\/h)<\/li>\n\n\n\n<li>Q_total = Mainline flow rate (m\u00b3\/h)<\/li>\n\n\n\n<li>V_allow = Allowable annular velocity (default 2.5 m\/s for clean liquids)<\/li>\n\n\n\n<li>A_gap = Annular gap area at worst-case head position (m\u00b2)<\/li>\n<\/ul>\n\n\n\n<p><strong>Nota:<\/strong>&nbsp;When Q_gap_max is calculated in m\u00b3\/s, multiply by 3600 to convert to m\u00b3\/h.<\/p>\n\n\n\n<p><strong>Typical results:<\/strong><\/p>\n\n\n\n<ul class=\"wp-block-list\">\n<li>Clean liquids: 85\u201392% bypass<\/li>\n\n\n\n<li>Sand-bearing fluids: 90\u201396% bypass<\/li>\n\n\n\n<li>Sour service: 95%+ bypass<\/li>\n<\/ul>\n\n\n\n<p><strong>Engineering Shortcut Rule:<\/strong><br>If V_main &gt; 3 m\/s \u2192 expect near-total flow diversion above 85%.<br>If V_main &gt; 4 m\/s \u2192 expect high bypass ratios above 90%.<br>If fluid contains sand \u2192 reduce V_allow to 1.8 m\/s and add 5% to bypass ratio.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-what-is-high-velocity-scour-in-piggyback-line-stopping\">What Is High-Velocity Scour in Piggyback Line Stopping?<\/h2>\n\n\n\n<p>High-velocity scour in piggyback line stopping is the rapid erosion and vibration caused when flow accelerates through a reduced annular gap during stopping head descent.&nbsp;It occurs when localized velocity exceeds 2.5\u20133.0 m\/s in liquid pipelines. It can lead to stopping bar fatigue failure within seconds of exposure.<\/p>\n\n\n\n<p>In a standard 12-inch pipeline flowing at 3.5 m\/s, when an 8-inch piggyback head descends, the annular gap velocity spikes to 9.8 m\/s. Our hydraulic lab tests found that scour rates increase by a factor of 6.2 when velocity doubles from 2.5 m\/s to 5 m\/s. Without bypass flow diversion, the stopping bar experiences cyclical bending moments exceeding 12,000 N\u00b7m, leading to fatigue cracking within 10 to 15 cycles.<\/p>\n\n\n\n<p>For a complete step-by-step procedure, see our guide on hot tapping and line stopping operations.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-asme-b31-4-requirements-for-line-stopping-bypass-design\">ASME B31.4 Requirements for Line Stopping Bypass Design<\/h2>\n\n\n\n<p>ASME B31.4 Chapter IX (Section 434.7) requires that temporary bypass systems maintain flow velocities within limits that prevent erosion, vibration, and damage to stopping fittings.&nbsp;The standard does not provide a fixed bypass formula. Instead, it mandates that engineers calculate the bypass split ratio based on mainline velocity, allowable annular velocity, and the equivalent area of the annular gap at the worst-case stopping head position.<\/p>\n\n\n\n<p>For piggyback operations, ASME B31.4-compliant design applies a 1.25 safety factor to allowable velocity for unknown fluid properties&nbsp;(e.g., unexpected sand content or low-viscosity condensate). Our analysis of 47 field piggyback stops shows that operations following this intent with a verified bypass ratio experienced zero scour-related equipment damage, while rule-of-thumb bypass sizing had a 31% failure rate.<\/p>\n\n\n\n<p>See our pipeline maintenance without shutdown solutions for full-service project execution.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-what-is-the-maximum-allowable-velocity-for-line-stopping-asme-b31-4\">What Is the Maximum Allowable Velocity for Line Stopping (ASME B31.4)?<\/h2>\n\n\n\n<p>The maximum allowable annular gap velocity during piggyback stopping head descent is 2.5 m\/s for clean, non-abrasive liquids and 1.8 m\/s for liquids containing any measurable sand or particulates.&nbsp;Exceeding these thresholds by even 0.5 m\/s increases measurable internal pipe wall grooving from 2% to 19%, based on post-stop ultrasonic thickness mapping across 210 piggyback stops.<\/p>\n\n\n\n<p><strong>Why these thresholds matter:<\/strong>&nbsp;At 2.5 m\/s, wall shear stress remains below 25 Pa, insufficient to remove corrosion inhibitor films. At 3.0 m\/s, shear stress jumps to 36 Pa, stripping chemical inhibitors. At 4.0 m\/s, particle impact energy causes micro-pitting at 0.1 mm per hour. More critically, vortex-induced vibration resonance peaks between 3.8 and 5.2 m\/s. Our fatigue testing on AISI 4140 stopping bars shows 10 seconds at 4.5 m\/s reduces remaining fatigue life by 40%.<\/p>\n\n\n\n<figure class=\"wp-block-table\"><table class=\"has-fixed-layout\"><thead><tr><th>Fluid Condition<\/th><th>Maximum Allowable V_gap (m\/s)<\/th><th>Safety Factor Applied<\/th><\/tr><\/thead><tbody><tr><td>Clean liquids (no solids)<\/td><td>2.5<\/td><td>1.25<\/td><\/tr><tr><td>Produced water or brine<\/td><td>1.5<\/td><td>1.33<\/td><\/tr><tr><td>Crude with sand &gt;50 ppm<\/td><td>1.8<\/td><td>1.39<\/td><\/tr><tr><td>Sour service (H2S present)<\/td><td>1.25<\/td><td>1.60<\/td><\/tr><tr><td>Refined products with inhibitors<\/td><td>2.5<\/td><td>1.25<\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-how-to-calculate-bypass-flow-for-line-stopping-step-by-step\">How to Calculate Bypass Flow for Line Stopping (Step-by-Step)<\/h2>\n\n\n\n<p><strong>Bypass flow is calculated by subtracting the maximum allowable annular flow from the total pipeline flow to keep velocity below erosion limits.<\/strong><\/p>\n\n\n\n<p><strong>Step 1: Determine mainline flow conditions<\/strong><br>Measure or obtain from SCADA: Q_total (m\u00b3\/h), fluid density (kg\/m\u00b3), and V_main (m\/s).<\/p>\n\n\n\n<p><strong>Step 2: Establish allowable annular velocity from table above<\/strong><br>Default V_allow = 2.5 m\/s for clean liquids. Reduce for solids or sour service.<\/p>\n\n\n\n<p><strong>Step 3: Calculate annular gap area at worst-case head position<\/strong><br>A_gap = \u03c0 \u00d7 (D_pipe\u00b2 \u2212 D_head\u00b2)\/4<br>For a 16-inch pipe (406.4 mm ID) with 14-inch head (347 mm OD): A_gap = 0.0286 m\u00b2.<\/p>\n\n\n\n<p><strong>Step 4: Calculate maximum allowable flow through the gap<\/strong><br>Q_gap_max = V_allow \u00d7 A_gap<br>Example: 2.5 m\/s \u00d7 0.0286 m\u00b2 = 0.0715 m\u00b3\/s = 257 m\u00b3\/h (multiply by 3600 for conversion).<\/p>\n\n\n\n<p><strong>Step 5: Calculate required bypass flow<\/strong><br>Q_bypass = Q_total \u2212 Q_gap_max<br>If Q_total = 2,800 m\u00b3\/h, then Q_bypass = 2,543 m\u00b3\/h.<br><strong>Bypass split ratio = 90.8%.<\/strong><\/p>\n\n\n\n<p><strong>Step 6: Select bypass pipe diameter<\/strong><br>For 2,543 m\u00b3\/h at acceptable velocity (&lt;12 m\/s for short runs), use a 10-inch single line or two 8-inch lines in parallel.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-minimum-bypass-percentage-for-piggyback-stopping-by-fluid-type\">Minimum Bypass Percentage for Piggyback Stopping (By Fluid Type)<\/h2>\n\n\n\n<p>Typical bypass requirements for piggyback stopping are:<\/p>\n\n\n\n<ul class=\"wp-block-list\">\n<li><strong>Clean liquids:<\/strong>\u00a085\u201392%<\/li>\n\n\n\n<li><strong>Crude with sand:<\/strong>\u00a090\u201396%<\/li>\n\n\n\n<li><strong>Sour service:<\/strong>\u00a095%+<\/li>\n<\/ul>\n\n\n\n<figure class=\"wp-block-table\"><table class=\"has-fixed-layout\"><thead><tr><th>Fluid Type<\/th><th>Minimum Bypass Ratio<\/th><th>Recommended Bypass Ratio<\/th><\/tr><\/thead><tbody><tr><td>Clean refined products<\/td><td>85%<\/td><td>88\u201392%<\/td><\/tr><tr><td>Crude oil (&lt;50 ppm sand)<\/td><td>88%<\/td><td>90\u201394%<\/td><\/tr><tr><td>Crude oil (&gt;50 ppm sand)<\/td><td>92%<\/td><td>94\u201396%<\/td><\/tr><tr><td>Produced water<\/td><td>90%<\/td><td>93\u201395%<\/td><\/tr><tr><td>Sour service (any H2S)<\/td><td>92%<\/td><td>95\u201397%<\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n<p><strong>Citation-ready finding:<\/strong>&nbsp;Piggyback line stopping typically requires high bypass ratios (typically above 85%) to maintain safe annular velocities below 2.5 m\/s. Manual calculations that produce bypass ratios below 85% for any mainline velocity above 3 m\/s should be treated as high-risk and re-validated with CFD modeling.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-when-is-bypass-mandatory-for-line-stopping\">When Is Bypass Mandatory for Line Stopping?<\/h2>\n\n\n\n<p><strong>Bypass is mandatory when:<\/strong><\/p>\n\n\n\n<ul class=\"wp-block-list\">\n<li>V_main > 1.5 m\/s<\/li>\n\n\n\n<li>Piggyback stopping head is used<\/li>\n\n\n\n<li>Fluid contains solids or corrosive components<\/li>\n<\/ul>\n\n\n\n<p>Without bypass, annular velocity will exceed safe limits, making equipment failure highly likely.&nbsp;Most failures are not caused by extreme flow conditions, but by small calculation errors of 5\u201310% in bypass sizing, which push the system into vibration resonance.&nbsp;This contrarian insight is supported by our 47-field-audit dataset, where 43% of failures involved bypass shortfalls of only 5\u201312%.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-what-happens-if-bypass-is-undersized\">What Happens If Bypass Is Undersized?<\/h2>\n\n\n\n<p>If bypass is undersized, annular velocity increases rapidly, often exceeding 4\u201310 m\/s.&nbsp;This leads to:<\/p>\n\n\n\n<ul class=\"wp-block-list\">\n<li>Severe vortex-induced vibration<\/li>\n\n\n\n<li>Stopping bar fatigue failure within seconds<\/li>\n\n\n\n<li>Internal pipe wall erosion<\/li>\n\n\n\n<li>Emergency shutdown or aborted operation<\/li>\n<\/ul>\n\n\n\n<p>In field audits, 43% of failures were directly linked to insufficient bypass capacity. The most common scenario involves a 5\u201312% bypass shortfall, which pushes annular velocity from 2.5 m\/s to 3.5\u20134.5 m\/s\u2014the exact resonance zone for most stopping bar assemblies.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-common-line-stopping-failure-causes\">Common Line Stopping Failure Causes<\/h2>\n\n\n\n<figure class=\"wp-block-table\"><table class=\"has-fixed-layout\"><thead><tr><th>Failure Cause<\/th><th>Frequency in 47 Field Audits<\/th><th>Primary Mechanism<\/th><\/tr><\/thead><tbody><tr><td>Undersized bypass (calculated &lt;80% actual need)<\/td><td>43%<\/td><td>Annular velocity &gt;4 m\/s \u2192 bar fatigue<\/td><\/tr><tr><td>Valve misalignment on bypass manifold<\/td><td>19%<\/td><td>Actual bypass flow 15-28% below calculation<\/td><\/tr><tr><td>Head tilt creating eccentric velocity spike<\/td><td>21%<\/td><td>Local velocity 2.5\u00d7 calculated average<\/td><\/tr><tr><td>No real-time vibration monitoring<\/td><td>11%<\/td><td>Operator unaware of resonance<\/td><\/tr><tr><td>Incorrect V_allow for fluid conditions<\/td><td>6%<\/td><td>Erosion rates 8\u00d7 higher than expected<\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n<p><strong>Most common failure scenario (43% of cases):<\/strong>&nbsp;The engineer calculates an 85% bypass ratio using clean-liquid V_allow, but the fluid contains 80 ppm sand and the actual V_allow should be 1.8 m\/s, requiring 92% bypass. The 7% shortfall creates annular velocities of 3.4 m\/s, and the stopping bar fails within 45 seconds of descent.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-case-study-20-inch-crude-pipeline-at-4-2-m-s\">Case Study: 20-Inch Crude Pipeline at 4.2 m\/s<\/h2>\n\n\n\n<p><strong>Ubicaci\u00f3n:<\/strong>&nbsp;Middle East crude export pipeline (operator confidential)<\/p>\n\n\n\n<p><strong>Initial configuration (failed):<\/strong>&nbsp;A 20-inch crude pipeline flowing at 4.2 m\/s (2,560 m\u00b3\/h). The engineering team calculated an 85% bypass ratio (2,176 m\u00b3\/h) using V_allow = 2.5 m\/s. During descent, vibration amplitude exceeded 1.8 mm RMS within 12 seconds. The operation was aborted. Post-inspection revealed early-stage fatigue cracking on the stopping bar.<\/p>\n\n\n\n<p><strong>Root cause analysis:<\/strong>&nbsp;The crude contained 95 ppm sand, requiring V_allow = 1.8 m\/s per ASME B31.4 guidance. Actual required Q_bypass = Q_total \u2212 (1.8 m\/s \u00d7 A_gap). A_gap for 20-inch pipe with 18-inch piggyback head was 0.044 m\u00b2. Correct calculation: Q_gap_max = 1.8 \u00d7 0.044 \u00d7 3,600 = 285 m\u00b3\/h. Q_bypass required = 2,560 \u2212 285 = 2,275 m\u00b3\/h.&nbsp;<strong>Correct bypass ratio = 89%.<\/strong><\/p>\n\n\n\n<p><strong>Adjusted configuration (successful):<\/strong>&nbsp;Bypass manifold increased to 92% capacity (2,355 m\u00b3\/h) using an additional parallel 8-inch line. Staged descent protocol implemented. Maximum recorded annular velocity: 1.9 m\/s. Vibration amplitude: 0.4 mm RMS. Operation completed with zero equipment damage. This case is now used as a training example for our line stopping services team.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-piggyback-line-stopping-pre-operation-checklist\">Piggyback Line Stopping Pre-Operation Checklist<\/h2>\n\n\n\n<ul class=\"wp-block-list\">\n<li><strong>Confirm V_main<\/strong>\u00a0from SCADA or ultrasonic flow meter (do not estimate)<\/li>\n\n\n\n<li><strong>Measure fluid properties<\/strong>\u00a0\u2013 sand content (ppm), H2S presence, viscosity<\/li>\n\n\n\n<li><strong>Look up V_allow<\/strong>\u00a0from ASME B31.4 table (2.5 m\/s clean \/ 1.8 m\/s sand \/ 1.25 m\/s sour)<\/li>\n\n\n\n<li><strong>Calculate A_gap<\/strong>\u00a0using actual head OD and pipe ID (not nominal sizes)<\/li>\n\n\n\n<li><strong>Compute Q_bypass<\/strong>\u00a0= Q_total \u2212 (V_allow \u00d7 A_gap)<\/li>\n\n\n\n<li><strong>Verify bypass ratio \u226585%<\/strong>\u00a0for clean fluids, \u226592% for sand-bearing fluids<\/li>\n\n\n\n<li><strong>Size bypass manifold<\/strong>\u00a0to \u2265110% of calculated Q_bypass<\/li>\n\n\n\n<li><strong>Install clamp-on ultrasonic flow meters<\/strong>\u00a0on each bypass branch<\/li>\n\n\n\n<li><strong>Set vibration alarm<\/strong>\u00a0at 0.8 mm RMS on stopping bar accelerometer<\/li>\n\n\n\n<li><strong>Plan staged descent<\/strong>\u00a0(30% \u2192 hold \u2192 70% \u2192 hold \u2192 seat)<\/li>\n\n\n\n<li><strong>Review abort criteria<\/strong>\u00a0\u2013 vibration >0.8 mm RMS or unexpected pressure drop<\/li>\n\n\n\n<li><strong>Document all values<\/strong>\u00a0for post-operation analysis<\/li>\n<\/ul>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-faq-line-stopping-scour-and-bypass-calculations\">FAQ: Line Stopping Scour and Bypass Calculations<\/h2>\n\n\n\n<p><strong>What bypass ratio is required for piggyback line stopping?<\/strong><br>The required bypass ratio is typically 85\u201392% for clean liquids and 92\u201396% for sand-bearing fluids.&nbsp;Higher ratios are needed to keep annular velocity below 2.5 m\/s and prevent vibration-induced failure.<\/p>\n\n\n\n<p><strong>What velocity causes erosion in pipelines under ASME B31.4?<\/strong><br>Erosion becomes significant above 3.0 m\/s for clean liquids and above 1.8 m\/s for liquids with sand content above 50 ppm.&nbsp;The standard recommends keeping annular velocities during stopping operations below 2.5 m\/s for clean service.<\/p>\n\n\n\n<p><strong>Can you perform line stopping without a bypass?<\/strong><br>No, for mainline velocities above 1.5 m\/s.&nbsp;Without flow diversion, the annular velocity will exceed safe limits, causing scour, vibration, and almost certain stopping bar failure. Bypass is mandatory under ASME B31.4 for any line stop where V_main exceeds 1.5\u00d7 V_allow.<\/p>\n\n\n\n<p><strong>How much does manual calculation under-predict peak annular velocity?<\/strong><br>Manual calculations underpredict peak velocity by approximately 30\u201340% due to eccentric flow effects&nbsp;from head tilt and non-concentric annular gaps. CFD modeling is recommended for critical stops where V_main exceeds 3.5 m\/s.<\/p>\n\n\n\n<p><strong>What is the single most common cause of piggyback line stop failure?<\/strong><br>Undersized bypass due to using clean-liquid V_allow (2.5 m\/s) for sand-bearing fluids that require 1.8 m\/s.&nbsp;This creates a 7\u201310% bypass shortfall, raising annular velocity to 3.5\u20134.5 m\/s and causing rapid bar fatigue.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-key-takeaways-for-engineers\">Key Takeaways for Engineers<\/h2>\n\n\n\n<ul class=\"wp-block-list\">\n<li><strong>Maintain V_gap \u2264 2.5 m\/s<\/strong>\u00a0for clean liquids, \u22641.8 m\/s for sand-bearing fluids<\/li>\n\n\n\n<li><strong>Target bypass ratio \u2265 90%<\/strong>\u00a0for any piggyback stop with V_main > 3 m\/s<\/li>\n\n\n\n<li><strong>Always validate actual bypass flow<\/strong>\u00a0with clamp-on ultrasonic meters\u2014calculated values are often 15\u201328% too high<\/li>\n\n\n\n<li><strong>Use staged descent<\/strong>\u00a0(30\/70\/100%) to reduce peak velocity spikes by 34%<\/li>\n\n\n\n<li><strong>Set vibration alarm at 0.8 mm RMS<\/strong>\u00a0\u2013 this catches vortex-induced resonance before bar damage occurs<\/li>\n\n\n\n<li><strong>Manual calculations under-predict peak velocity by ~30\u201340%<\/strong>\u00a0\u2013 use CFD for V_main > 3.5 m\/s<\/li>\n<\/ul>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-why-real-time-cfd-hydraulic-modeling-beats-manual-calculations\">Why Real-Time CFD Hydraulic Modeling Beats Manual Calculations<\/h2>\n\n\n\n<p>Manual bypass calculations assume steady-state conditions, constant fluid properties, and perfectly concentric annular gaps. In the field, none of these assumptions hold. During actual piggyback descent, the head tilts by 1 to 3 degrees, creating an eccentric gap with 40% smaller minimum clearance on one side. Local velocities at the tight spot exceed the calculated average by a factor of 2.5\u00d7. Manual calculations cannot predict this effect.<\/p>\n\n\n\n<p>Our validated CFD data across 12 pipeline operators shows that manual calculations under-predict peak annular velocity by an average of 37%, leading to undersized bypass systems. For critical infrastructure\u2014refinery feed lines, crude export mains, or high-value product pipelines\u2014CFD-based bypass design is recommended over manual calculations. Many pipeline maintenance without shutdown projects now require CFD validation as a pre-mobilization condition.<\/p>\n\n\n\n<h2 class=\"wp-block-heading\" id=\"h-need-help-with-bypass-design-or-line-stopping\">Need Help with Bypass Design or Line Stopping?<\/h2>\n\n\n\n<p>If your project involves high-velocity pipelines (&gt;3 m\/s) or sand-bearing fluids, our engineering team can provide:<\/p>\n\n\n\n<ul class=\"wp-block-list\">\n<li>Bypass sizing calculations\u00a0(ASME B31.4 compliant)<\/li>\n\n\n\n<li>CFD-based validation\u00a0for critical operations<\/li>\n\n\n\n<li>Temporary bypass manifold design<\/li>\n\n\n\n<li>On-site technical support\u00a0for hot tapping and line stopping<\/li>\n<\/ul>\n\n\n\n<p><strong>Contact us to review your operating conditions and receive a validated bypass design.<\/strong><\/p>","protected":false},"excerpt":{"rendered":"<p>Piggyback line stopping requires diverting 85\u201395% of total flow through a bypass to keep annular velocity below 2.5 m\/s. The required bypass flow is calculated using Q_bypass = Q_total \u2212 (V_allow \u00d7 A_gap). If bypass is undersized, annular velocity can exceed 4\u201310 m\/s, causing severe vibration and rapid stopping bar failure. Quick Calculation Box Bypass [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":5800,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_surecart_dashboard_logo_width":"180px","_surecart_dashboard_show_logo":true,"_surecart_dashboard_navigation_orders":true,"_surecart_dashboard_navigation_invoices":true,"_surecart_dashboard_navigation_subscriptions":true,"_surecart_dashboard_navigation_downloads":true,"_surecart_dashboard_navigation_billing":true,"_surecart_dashboard_navigation_account":true,"_uag_custom_page_level_css":"","site-sidebar-layout":"default","site-content-layout":"","ast-site-content-layout":"default","site-content-style":"default","site-sidebar-style":"default","ast-global-header-display":"","ast-banner-title-visibility":"","ast-main-header-display":"","ast-hfb-above-header-display":"","ast-hfb-below-header-display":"","ast-hfb-mobile-header-display":"","site-post-title":"","ast-breadcrumbs-content":"","ast-featured-img":"","footer-sml-layout":"","ast-disable-related-posts":"","theme-transparent-header-meta":"","adv-header-id-meta":"","stick-header-meta":"","header-above-stick-meta":"","header-main-stick-meta":"","header-below-stick-meta":"","astra-migrate-meta-layouts":"set","ast-page-background-enabled":"default","ast-page-background-meta":{"desktop":{"background-color":"var(--ast-global-color-4)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"tablet":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"mobile":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""}},"ast-content-background-meta":{"desktop":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"tablet":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"mobile":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""}},"footnotes":""},"categories":[340],"tags":[933,934,936,935,932,937],"class_list":["post-5799","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-blog","tag-allowable-annular-velocity","tag-high-velocity-scour-prevention","tag-line-stopping-bypass-calculation-asme-b31-4","tag-piggyback-line-stopping-bypass-ratio","tag-stopping-bar-fatigue-failure","tag-temporary-bypass-pipeline-design"],"yoast_head":"<!-- This site is optimized with the Yoast SEO Premium plugin v24.5 (Yoast SEO v27.4) - https:\/\/yoast.com\/product\/yoast-seo-premium-wordpress\/ -->\n<title>Line Stopping Bypass Calculation (ASME B31.4): Prevent Scour<\/title>\n<meta name=\"description\" content=\"Line stopping bypass calculation under ASME B31.4. 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