Seismic Design Code - PV Elite - Help - Hexagon
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Welcome to PV Elite
PV Elite と CodeCalc の新機能
PV Elite の概要
他の競合するソフトウェアと PV Elite の優位性について
何を設計するのでしょうか
操作の開始とワークフロー
インターフェイス
インターフェイス言語の設定
入力プロセッサ
ステータス バー
ツールチップ
詳細データの追加
全体データの指定 - 荷重と設計条件
Error Checking (エラーチェック)
モデル作成の基本事項
容器の基本事項の定義
熱交換器のモデル化
熱交換器左側の作成
管板データの入力
主たる円筒胴の作成
熱交換器右側の作成
付属部品の入力
解析
解析の実行
容器詳細の設計と解析
容器の個々の部品詳細解析
結果の照査とレポートの生成
モデルの記録 - 容器イメージのプロット
PV Elite 比較ユーティリティの利用
ファイルフォルダの作成
PVE_TESTING 変数を TRUE に設定
ベンチマークファイルの展開
モデルを解析して .pvr ファイルを作成
ファイル比較の実行
ファイル比較の確認
DXF ファイル 作成オプション
Setting Up the Required Parameters (必要なパラメーターの設定)
User Border Creation (ユーザー枠線の作成)
DXF File Generated by PV Elite During Runtime (PV Elite 実行中における DXF ファイルの作成)
File (ファイル) タブ
Open (開く)
Save (保存)
Save As (名前を付けて保存)
Import/Export (インポート/エクスポート)
Print Setup (印刷設定)
Preview/Print (プレビュー/印刷)
Exit (終了)
Home (ホーム) タブ
File (ファイル) パネル
New (新規作成)
From Project Template
Elements (要素) パネル
Rectangular Vessel Configuration (矩形容器設定) ダイアログ
Vessel (容器) タブ (Rectangular Vessel Configuration - 矩形容器設定)
Description (注釈)
Design Internal | External Pressure (設計内圧 | 外圧)
Design Internal Temperature
Figure Designation
Min. Thick. of End Closure Plate/Vessel Head (t5)
Vessel Corrosion Allowance
C-Factor for End Closure Plate/Vessel Head (UG-34)
Vessel Material
Stay Plate/Reinforcing Material
Length of Vessel
Radius of Corner Section
Min. Thk. of 2nd Long-Side Plate (t22 if reqd)
C-Factor (From UG-47 ASME)
Delta
Pitch Dist. Between Reinforcing Members (L11)
Short-Side Unreinforced Length Dim. (L11)
Long-Side Unreinforced Length Dim. (L21)
Min. Thick./Dia. of Stay Plate/Rod (t3)
Min. Thick./Dia. of Stay Plate/Rod (t4 if reqd)
Stay Plate Corrosion Allowance
Pitch Distance Between Bars
Pitch Dist. Between Bars of Diameter t3
Pitch Dist. Between Bars of Diameter t4
Vessel Radius
Pressure in 2nd Compartment
Plates are Perforated (EN 13445)
Diameter of Holes in Plate
Hole Pitch, Long. | Diagonal
Angle Beta
Short Side タブ (Rectangular Vessel Configuration - 矩形容器設定)
Short-Side Length Dimension (H, L1, L3, or 2R)
Min. Thick. of Short-Side Plates (t1)
Short-Side Joint Efficiency Factor (Mid-Side)
Corner Section Joint Efficiency Factor
Type of Short-Side Reinforcement
Cross-Sectional Area of Reinforcing Member
Moment of Inertia of Reinforcing Member
Centroid Distance from Outside of Vessel
Axial Thickness of Bar Stiffener
Radial Width of Bar Stiffener
Length of Reinforcing Member (If Discontinuous)
Type of EN Reinforcement
tw | tf | bf
dw | hr | bof
Threaded Holes in Short-Side Plates
Center to Center Distance Between Holes
Diameter of Hole
Depth of Hole
Ligament Efficiencies em | eb
Distance from Neutral Axis ci
Distance from Neutral Axis co
Long Side Tab (Rectangular Vessel Configuration)
Long-Side Length Dimension (h, L2, L4, or 2R)
Min. Thick. of Long-Side Plates (t2)
Long-Side Joint Efficiency Factor (Mid-Side)
Type of Long-Side Reinforcement
Threaded Holes in Long-Side Plates
Details (詳細) パネル
共通の部品パラメータ
部品の追加
部品の修正
Stiffening Ring (補強リング)
From Node (From節点)
New Ring Description / Detail ID
Distance from "From" Node
Ring Material (リングの材料)
Width of Ring in Contact w/Shell
Radius of Standing Flange (Rf)
Thickness of Flange
Length Between Heavy Stiff, Lc
Ring Location (リングの位置)
Ring Type (リングの種類)
Cone to Shell Junction Ring? (円錐と胴要素の接続部リング)
Inside Diameter (内径)
Thickness (厚さ)
Outside Diameter (外径)
Structural Database (構造データベース)
Moment of Inertia (断面二次モーメント)
Cross Sectional Area (断面積)
Distance to Ring Centroid (リング重心からの距離)
Section Ring Height (リング断面の深さ)
Welded Thickness to Shell for MDMT Calcs
Section Name (断面の名前)
Choose a Section (断面の選択)
Ring Fillet Weld Leg Size (リングすみ肉溶接の脚長)
Ring Attachment Style (リング取付スタイル)
Number of Rings to Add (リング設置数)
Ring Spacing (リング間隔)
Nozzle (ノズル)
Nozzle Main タブ - Nozzle Input/Analysis (ノズル入力/解析) ダイアログ
Nozzle Attachment (ノズル取付け)
FVC Catalog (FVC カタログ)
Coupling Lookup (カップリング検索)
Just Like (同じもの)
Nozzle Description (ノズル注釈)
Nozzle Material (ノズル材料)
Schedule (スケジュール)
Diameter
Dia. Basis
Thickness Basis (厚さの基準)
Total Corrosion Allowance (腐れ代)
Actual Thk
ノズル方向 (Nozzle Main タブ)
Is this nozzle connected to another nozzle? (他ノズルへの接続)
Parent Nozzle (親のノズル)
Distance from "From" Node
Offset Dimension L (オフセット L)
Distance from Shell Surface
Layout (レイアウト)
Nozzle Layout and Placement (ノズルレイアウトと配置) ダイアログ
Layout Angle (レイアウト角度)
Radial Nozzle
Angle or Lateral Nozzle (角度付きまたははラテラルノズル)
Centerline Tilt Angle
Cyl./Cone Offset Dimension L (円筒胴/円錐オフセット寸法 L)
Projection Outside
Projection Inside
Limits (Diameter) (径の制限)
Limits (Thickness) (厚さの制限)
Overriding Weight (重量の上書き)
Pad or Hub Properties (補強板とハブの特性)
Pad Material (補強板の材料)
Pad Diameter / Width (補強板の径/幅)
Pad Thickness
Groove Weld Depth (溶接開先深さ)
Weld Leg at Pad OD
For VIII-1 split pads, per UG-37(h), multiply Area A5 by 0.75
Hub Thickness
Hub Height
Bevel Height
Obtain ASME Bevel Angle
Additional Weld Data (付加的な溶接データ)
Nozzle to Shell Outside Fillet Weld Leg
Nozzle to Shell Inside Fillet Weld Leg
Nozzle to Shell Groove Weld Depth
ASME VIII-1 Weld Type
Miscellaneous
Flange Class
Flange Grade (フランジ分類)
Flange Material (フランジ材料)
Flange Type (フランジ種類)
Neglect Areas (除外する面積)
Tapped Hole Area Loss
Nozzle Eff.
Shell Eff. (胴の溶接継手効率)
C Factor (C 係数)
Local Shell Thk.
User Tr
Blind Attached?
Manway/Acs Ope?
Fatigue Calc?
Weld Class
Piping Attached
Drain Piping Input ダイアログ
Derate Flange MAWP if Externally Loaded?
Quick Results
Local Stress Analysis (WRC 107, 297 あるいは Annex G) タブ (Nozzle Input/Analysis ダイアログ)
PD 5500 Annex G Analysis
WRC 107/537 Analysis - Local Load Convention (WRC 107/537解析 - 局所荷重座標)
WRC 107/537 Analysis - Global Load Convention (WRC 107/537解析 - 全体荷重座標)
WRC 297 Analysis (WRC 297 解析)
EN 13445 Section 16 Analysis
Weight (重量)
From Node (From節点)
New Weight Description
Distance from "From" Node (From節点からの距離)
Layout Angle (レイアウト角度)
Offset from Element Centerline (要素中心からの距離)
Miscellaneous Weight (その他の重量)
Select the Active Cases for this Weight/Mass (重量/質量の適用荷重ケース)
Is this a Welded Internal?
Area of External Weight/Piping/Equipment
Piping Detail (配管部品)
Pipe Lookup (配管検索)
Pipe Outside Diameter (配管外径)
Pipe Thickness (配管肉厚)
Fluid Specific Gravity (液体の比重)
Insulation Thickness (断熱材の厚さ)
Insulation Density (2) (断熱材の密度)
Compute Weight and Area (重量と面積を計算)
Force and Moment (荷重とモーメント)
From Node (From節点)
New Force/Moment Description
Distance from "From" Node (From節点からの距離)
Applied Forces - X
Applied Forces - Y
Applied Forces - Z
Applied Moments - X
Applied Moments - Y
Applied Moments - Z
Compute Stresses Due to Applied Loads
Force/Moment Combination Method (荷重とモーメントの合成方法)
Platform (プラットフォーム)
From Node (From節点)
New Platform Description
Non-Circular Platform?
Distance from "From" Node
Layout Angle (レイアウト角度)
Platform Start Angle
Platform End Angle
Platform Railing Weight
Platform Grating Weight
Platform Width
Platform Height
Offset from End
Clearance
Platform Length (Non-Circular)
Force Coefficient Cf
Platform Wind Area
Control Options
Ladder Layout Angle
Ladder Start Elevation
Ladder Stop Elevation
Ladder Unit Weight
Is this a Caged Ladder?
Platform and Ladder Weight
Packing
From Node (From節点)
New Packing Description
Distance from "From" Node
Height of Packed Section
Full
Density of Packing
Packing in place during the field hydrotest?
Percent Volume Hold Up
Liquid Specific Gravity
Saddle (サドル)
From Node (From節点)
Detail Description
Distance from "From" Node
Saddle Width
Saddle Dimension a
Centerline Dimension B
Saddle Contact Angle
Wear Plate Width
Wear Plate Thickness
Wear Plate Contact Angle
Height of Section Ring
Friction Coefficient Mu
Moment Factor, Ftr
Dimension E at base
Tangent to Tangent Distance
Circ Eff over Saddle
Circ Eff at Midspan
Wear Plate and Shell Matls are the same?
Is this Saddle Welded to the Shell?
Perform Saddle Check?
Saddle Allowable Stress
Material Yield Stress
E for Plates
Baseplate Length
Baseplate Thickness
Baseplate Width
Number of Ribs
Rib Thickness
Web Thickness
Height of Center Web
Web Location
Perform Anchor Bolts Calculations?
Saddle Bolted to Steel Foundation?
Number of Bolts
Num of Bolts in Tension
Edge Distance
Bolt Corrosion Allowance
Bolt Material
Bolt Allowable Stress
Thread Series
Nominal Bolt Diameter
Bolt Root Area
Optional Moments for Saddle Analysis
Moment M1 - Saddle
Moment M2 - Saddle
Tray (トレイ)
From Node (From節点)
New/Existing Tray Description
Distance from "From" Node
Number of Trays
Tray Spacing
Tray Weight Per Unit Area
Support Ring and Bolting Bar Weight
Height of Liquid on Tray
Density of Liquid on Tray
Lug (ラグ)
Lug Type
From Node (From節点)
Detail Description
Lug Start Angle
Distance from "From" Node
Lug Material
Number of Lugs
Dist. from OD to Lug MidPt (dlug)
Force Bearing Width (wfb)
Radial Width of Bottom Ring (wpl)
Effective Force Bearing Length (lpl)
Thickness of Bottom Ring (tpl)
Distance Between Gussets (dgp)
Mean Width of Gussets (wgp)
Height of Gussets (tgp)
Thickness of Gussets (tgp)
Radial Width of Top Ring (wtp)
Thickness of Top Ring (ttp)
Weight of One Lug
Perform WRC 107 Calculation
Pad Width
Pad Length
Pad Thickness
Bolt Material
Type of Threads
Nominal Bolt Diameter
Bolt Root Area
Compute Weight
Legs
Leg Input Parameters タブ (Leg ダイアログ)
From Node (From節点)
Leg Description
Distance from "From" Node
Leg Centerline Diameter
Leg Orientation
Number of Legs
Overall Length of Legs
Effective Leg Length "L"
Leg Database
Section Identifier
Leg Yield Stress
Effective End Condition "K"
Leg Start Angle
Occasional Load Factor
Perform WRC 107 Analysis
Pad Width
Pad Length
Pad Thickness
Compute Centerline Diameter
Are the Legs Cross Braced?
Are these Pipe Legs?
Pipe Leg Inside Diameter
Pipe Leg Outside Diameter
Vessel Translates during Occasional Load?
Employ Directional Check for W and C Types
Base Plate Parameters タブ (Leg ダイアログ)
Perform Baseplate Analysis?
Length, B
Width, D
Thickness
Material
Thread Series
Nominal Diameter
Corrosion Allowance
Number per Baseplate
Number in Tension
Distance from Edge to Bolt
Root Area
Nominal Compressive Strength
Liquid (液)
From Node (From節点)
Detail Description
Distance from "From" Node
Specific Gravity
Liquid Density
Height in this Element
Height from Datum
Insulation (断熱材)
From Node (From節点)
Detail Description
Distance from "From" Node
Height/Length of Insulation (断熱材の高さ/長さ)
Thickness of Insulation
Density of Insulation
Type of Insulation
Lining (ライニング)
From Node (From節点)
Detail Description
Distance from "From" Node
Height/Length of Lining (ライニングの高さ/長さ)
Thickness of Lining
Density of Lining
Halfpipe Jacket (半割りパイプジャケット)
From Node (From節点)
Jacket Description
Distance from "From" Node
Length Along Shell of Jacket Section
Pitch Spacing
Shell Corrosion Allowance in Jacket
Start Angle
Jacket Design Temperature
Jacket Design Pressure
Jacket Material
Jacket Corrosion Allowance (ジャケット腐れ代)
Pipe (管)
Minimum Jacket Thickness
Inside Radius of Formed Jacket
Nominal Pipe Size
Contents Specific Gravity
Tubesheet Analysis
Tubesheet Type and Design Code タブ (Heat Exchanger Tubesheet Input ダイアログ)
The computed MAWP for pressure testing is based on pressure cases only
Tubesheet Properties タブ (Heat Exchanger Tubesheet Input ダイアログ)
Description
Dist. from "From" Node
Tubesheet Type
Outside Diameter
Stepped Tubesheet (段付き管板)
Is this a stepped tubesheet
Flat on tube side
Step 1 (Tube Side)
Step 1 Diameter (dt1)
Step 1 Depth (ht1)
Step 2 (Tube Side)
Step 2 Diameter (dt2)
Step 2 Depth (ht2)
Flat on Shell Side
Step 1 (Shell Side)
Step 1 Diameter (ds1)
Step 1 Depth (hs1)
Step 2 (Shell Side)
Step 2 Diameter (ds2)
Step 2 Depth (hs2)
Tubesheet Thickness
Corr. Allow. Shell Side / Channel Side
Depth of Groove in Tubesheet (if any)
Weld Leg at Back of Tubesheet (if any)
Tubesheet Assembly is Down/Left?
Tubesheet Extended as Flange?
Thickness of Extended Portion
Tfr/T Ratio for U-Tubesheets (optional)
Bolt Load Transferred to Tubesheet?
UnTubed Lane Area
Use Full Bolt Load during Tubesheet Analysis?
Backing Ring Thickness
Backing Ring ID / OD
G Dimension for Backing Ring
Is There a Shell Band?
Shell Thickness Adjacent to Tubesheet
Shell Band Corrosion Allowance
Shell Band Length Adjacent to Tubesheet, Front End L1
Shell Band Length Adjacent to Tubesheet, Rear End L1'
How are Tubesheets Clamped
Tube Bundle Pullout Force
Tube Bundle Pullout Force Impact Factor
Apply Force to Fixed Saddle Only?
Tube Data タブ (Heat Exchanger Tubesheet Input ダイアログ)
Number of Holes / Pattern
Wall Thickness Corrosion Allowance
Outside Diameter / Pitch
Length of Expanded Portion of Tube
Radius to Outermost Tube Hole Center
Distance Between Innermost Tube Centers
Straight Tube Length
Straight Tube Length Measured Between
Perimeter of Tube Layout (if needed)
Area of Tube Layout (if needed)
Number of Tubes Immersed
Tube Layout Assistant
Layout Pattern (レイアウト パターン) タブ
Import Layout Results
Max. Dist. from Tubesheet to 1st Tube Support
Max. Dist. bet. 2 Tube Supports
End Condition k
Max Unsupported Len SL
Tube Hole Diameter, dh
Number of Grooves in Hole
Fillet Weld Leg Size (if any)
Groove Weld Leg Size (if any)
Design Strength (not for fixed TS types)
Tube Weld Joint Type
Tube Joint Type
Allowable Joint Load Method
Is Tube-Tubesheet Jt. Tested?
Is Tube Weld Inset (ASME UW-20)
ASME Tube Jt. Reliability Factor
Compute Po & Pt
Tube Expansion, Po
Differential Thermal Expansion, Pt
Is This a Welded Tube (Not Seamless)?
Specific Gravity of the Operating Liquid in the Tubes
Click to Enter Baffle Information
Baffle, Tie Rod, and Spacer Data ダイアログ
Type of Baffles
Outside Diameter of Baffle Plate
Diameter of Baffle Holes
Baffle Thickness
Distance between Baffles
Distance from Tubesheet to First Baffle
Number of Baffles
Number of Holes in Baffle
Percent Baffle Cut (i.e. 25%) / Percent Area Cut (i.e. 45%)
Baffle Material
Tie Rod Data
Spacer Data
Expansion Joint Data タブ (Heat Exchanger Tubesheet Input ダイアログ)
Thin Joint Options (薄肉継手オプション)
有限要素法解析 (FEA) と ASME または TEMA 伸縮継手 (PV Elite)
Load Cases タブ (Heat Exchanger Tubesheet Input ダイアログ)
Report Print Options (レポート印刷オプション) ダイアログ
Floating TubeSheet タブ (Heat Exchanger Tubesheet Input ダイアログ)
Spherical Cover/Backing Ring タブ (Heat Exchanger Tubesheet Input ダイアログ)
Description
Design Temperature
Type of Floating Head
Inside Crown Radius (L)
Head Thickness (t)
Head Internal Corrosion Allowance
Head External Corrosion Allowance
Flange Thickness (tf)
Slotted Flange
Full Face Gasket Option
Head Material Name
Flange Material Name
Floating Head Factors (Spherical Cover/Backing Ring タブ)
Compute "F" even if the pressure is 0
Distance from Flange Centroid to Head Centerline (hr)
Distance from Flange Top to Flange/Head Intersection
Compute
Perform Soehren's Calc
Dim Q
Backing Ring データ (Spherical Cover/Backing Ring タブ)
Is There a Backing Ring?
Backing Ring Material
Backing Ring Inside Diameter
Backing Ring Outside Diameter
Backing Ring Thickness
Number of Splits in Backing Ring
Add a Clip (クリップ追加)
Lifting Lug/Trunnion (リフティングラグ/トラニオン)
From Node (From節点)
Is this a Trunnion?
Lifting Lug/Trunnion Description
Layout Angle
Distance from "From" Node
Lug Contact Width (w)
Diameter of Hole in Lug (dh)
Radius of Semi-circular Arc (r)
Height from Bottom to Center of Hole (h)
Trunnion Length (Tl)
Trunnion Outer Diameter (Tod)
Trunnion Wall Thickness (Tthk)
Sling/Bail Width (Tt)
Offset from Vessel OD to Center of Hole (off)
Lug Fillet Weld Size (tf)
Length of Weld Along Side of Lifting Lug (wl)
Length of Weld Along Bottom of Lifting Lug (wb)
Collar Thickness (tc)
Collar Diameter (dc)
Lug Thickness (t)
Lug/Trunnion Material
Sling Angle from Horizontal
Occasional Load Factor
Impact Factor
Number of Lugs in Group
Additional Normal Force (Fn)
Pad Parameters
Is there a pad?
Pad Diameter (Dp)
Circumferential Width (wpb)
Longitudinal Length (wpl)
Pad Thickness (thkp)
Pad Fillet Weld Size (tfp)
Lug Style
Is the lug slotted?
Lug Perpendicular?
Slot Radius (rs)
Slot Weld Height (swh)
Jacket or Vapor/Distribution Belt (ジャケットまたはベーパー/デストリビューションベルト)
Jacket Length L
Dist from From Node to Jacket Bottom
Jacket Description
Is this a Vapor / Distibution Belt?
Select Jacket Figure
Jacket Longitudinal Efficiency
Jacket Material
Design Temperature, Internal
Design Temperature, External
Jacket Pressure, Internal
Jacket Pressure, External
Jacket Thickness
Jacket Corrosion Allowance
Jacket Length for External Pressure
Jacket Inside Diameter
Jacket Head Type
Aspect Ratio
Inside Crown Radius
Knuckle Radius
Joint Efficiency
Jacket Head Thickness
Corrosion Allowance
Select Closure Figure Type
Closure Material
Closure Thickness
Total Corrosion Allowance
Specific Gravity of Contents
Half Apex Angle
Thickness of Insulation
Density of Insulation
API-579 Flaw/Damage Input/Analysis
From Node (From節点)
Distance from 'From' Node
New/Existing Damage Description
Layout Angle (レイアウト角度)
Flaw Type
Assessment Level
Future Corrosion Allowance, local [FCAml]
Future Corrosion Allowance [FCA]
Uniform Metal Loss [LOSS]
Remaining Strength Factor [RSFa]
Local Metal Loss Data
Orientation w/Respect to Long. Axis [beta]
Length of Groove-like Flaw [gl]
Width of Groove-like Flaw [gw]
Radius at Base of Groove-like flaw [gr]
Depth of Groove-like Flaw
Local Thinning Area Longitudinal Dimension [s]
Local Thinning Area Circumferential Dimension [c]
Distance to Nearest Major Structural Discontinuity [Lmsd]
Measurement Data
Point Thickness Readings (Part 4 only)
Critical Thickness Profile
Pitting Data (Part 6 Only)
Edit Measurement Data
Pitting
Pit Chart
Maximum Pit Depth (wmax)
Maximum Pit Diameter [d]
Pitting and Corrosion
Pit Category
Remaining Life Assessment Options
Thickness Approach (Parts 4 and 5 only)
MAWP Approach
Increase in Pit Size
Increase in Pit Density
Increase in Pit Region
Previous Average Measured Thickness [tam_prev]
Corrosion Rates
Corrosion Rate [Crate]
Away from Metal Loss [CrateRD]
Longitudinal [CrateS]
Circumferential [CrateC]
Pit Depth [PPRpit-depth]
Pit Diameter [PPRpit-dia]
Pit Spacing [PPRpit-spa]
API Overriding Values ダイアログ
Effective Corrosion Allowance for Remaining Life [CAe]
Use Design Conditions per API 579 2007 Paragraph A.2.2.a
Use Overriding Force and Moments Values
Applied Axial Force [F]
Applied Shear Force [V]
Applied Bending Moment [M]
Applied Torsional Moment [Mt]
Rib/Stiffener Analysis (リブ/補強)
Input/Output (入力/出力) パネル
Input (入力)
Component Analysis (要素解析)
Review Database (データベースの照査)
Utility (ユーティリティ) パネル
Share Information (情報共有)
Flip Element Orientation (要素方向回転)
Retirement Limit Calculations (使用限界厚さの計算)
Life Fraction Calculations (余寿命の割合計算)
Transportation Analysis (運搬解析)
Auxiliary (補助) パネル
Seamless Pipe Selection (継ぎ目なし配管選択) ダイアログ
Pipe Schedule
Nominal Pipe Diameter
Deduct Mill Tolerance from Thickness?
List (リスト) ダイアログ
Adjust detail elevations by
But only for "From" nodes > or =
Setting Up the Required Parameters (必要なパラメーターの設定)
User Border Creation (ユーザー枠線の作成)
Create Database (データベースの作成)
Create 3D PDF Files (3D PDF ファイル作成)
Analyze (解析) パネル
Analyze (解析)
Error Check Only (エラーチェックのみ)
Error Checking (エラーチェック)
Review Reports (レポートの確認)
DXF File Generated by PV Elite During Runtime (PV Elite 実行中における DXF ファイルの作成)
Units/Code (単位/規格) パネル
Tools (ツール) タブ
Configuration (環境設定)
Job Specific Settings タブ (Configuration ダイアログ)
Print water volume in gallons
Round thickness to nearest nominal size
Print equations and substitutions
Print flange calcs for external pressure
Use Eigen solver
Use nominal head thickness when computing longitudinal stress
Lap joint flanges are lines of support for external pressure
No MDMT calculations
No MAWP calculations
Use bolt load instead of bolt area times bolt stress
External length L includes flange thickness
Add moments at lug supports due to seismic loads
Vary compressive allowable for internal/external cases
Show only un-factored loads in the vessel summary
Allowable tower deflection
Wind shape factor
Operating natural frequency (Hz) (Optional)
Empty natural frequency (Hz) (Optional)
Test natural frequency (Hz) (Optional)
Material database selection
Input echo language
No bill of material
Consider nozzle loads on supports
No earthquake deflection calculations
Syntax highlighting in output reports
No extended ASCII characters in output
Metric output is in consistent units
Metric input to imperial output
Use commas instead of decimals in numbers
Use metric ASME material database
Metric constant selection
Nozzle Analysis Options タブ (Configuration ダイアログ)
Nozzle/clip design pressure options
Nozzle sort options
Nozzle loads applied at end of nozzle
Compute areas per PD 5500 3.5.4.9
Use AD-540.2 sketch b and not sketch d for normal limit (pre 2007)
No corrosion on inside welds
Compute increased nozzle thickness
Compute and print areas for small nozzles
Compute chord length in hillside direction
Consider MAPnc
Consider external loads for nozzle Tr
Use Appendix 1-9 (Div. 1)
Use Appendix 1-10 instead of UG-37
ASME large nozzle calc options
ANSI flange pressure reduction options
No ANSI flange MAWP reduction when using UG-44 | 4.16.12
Use user defined Fm values for ANSI flanges
Consider nozzle loads for UG-45
Nozzle opening MAWP is not restricted by the shell (ASME)
No B31.3 stress checks on nozzles (ASME)
ASME Options タブ (Configuration ダイアログ)
Use the vessel MAWP to compute the MDMT
Do not use nozzle MDMT interpretation VIII-1-01-37
Reduce the MDMT due to lower membrane stress
UCS-66.1 ratios below 0.35 compute MDMTs of -155F
UCS-68(c) MDMTs can be less than -55F
Consider longitudinal stress when computing MDMTs
ASME VIII-1 MDMT option
ASME code edition
Use Code Case 2286
For ASME VIII-1, compute K in corroded condition
Use Div. 1 App. 46 (Div. 1 allowables using Div. 2 Part 4)
Use Pre-99 addenda (ASME VIII-1 only)
Use 2004 A-06 addenda for Division 2
For ASME VIII, shell head joints are tapered
For ASME VIII-1, use Table G instead of exact equation for A
Increase flat head/cover thickness for reinforcement
Disregard bolt space correction factor for ASME flange design
Use ASME code case 2260/2261
Impact Test Optionsタブ (Configuration ダイアログ)
Consider UG-84 tables in MDMT calculations
Consider UCS-66(g) in MDMT calculations
Consider UCS-66(g) in MDMT Calculations
Set MDMTs for low temperature materials
Weld Seam Options タブ (Configuration ダイアログ)
DXF Options タブ (Configuration ダイアログ)
Default Value Settings タブ (Configuration ダイアログ)
Diameter
Finished Thickness
Corrosion Allowance
Internal Pressure
Temperature for Internal Pressure
External Pressure
Temperature for External Pressure
ASME material
PD 5500 material
EN 13445 material
ASME nozzle material
PD 5500 nozzle material
EN 13445 nozzle material
No auto advance when adding details
For ASME, use the metric database on startup
Foundation loads on a new page
Disable Undo and Redo
Separate output reports by element
No external pressure report produced when there is no external pressure
Do not compress the input files
Level of precision (equations and substitutions)
Units file
Default nozzle database
Always use the specified default nozzle database
Default 0 angle position
Default rotation direction
Save Options タブ (Configuration ダイアログ)
Enable autosave
Save interval (minutes)
Perform silent background saves
Tip text
Tip back
Default save folder location
Default Templates folder location
Check for update options
Default System folder location
AI Settings タブ (Configuration ダイアログ)
Select Units (単位の選択)
Lock/Unlock the Current Input File (現在の入力ファイルロック/ロック解除)
Create/Review Units (単位作成/確認)
新規単位ファイルを作成する
既存の単位ファイルを編集する
Create a New Units File ダイアログ
Review Current Model Units
Edit/Add Materials (材料編集/追加)
Material Database Editor (材料データベースエディター)
Create a new custom material (新規カスタム材料を作成する)
Create a custom material based on an existing material (既存の材料を基にカスタム材料を作成する)
Material Properties (材料特性)
File Extraction Utility (ファイル展開ユーティリティ)
ファイルの展開
File Extraction ダイアログ
VUE File Exporter (ビュー ファイル エクスポータ)
ファイルのエクスポート
VUE File Exporter ダイアログ
PED Classification Utility (PED 分類ユーティリティ)
Calculator (計算機)
Enter U-1 Form Information (U-1 書式情報の入力)
Compute Ligament Efficiencies (リガメント効率の計算)
View (表示) タブ
Toggle Status Bar
Split
3D タブ
3D Graphics ツールバー
Help (ヘルプ) タブ
General Input タブ
Element Data (General Input タブ)
Element Description
From Node (From節点)
To Node (To節点)
Element Type (要素の種類)
Diameter Basis (径の基準)
Inside Diameter (内径)
Out of Roundness Radii Measurements ダイアログ
Code Considerations for Out-of-Roundness Calculations (真円度の計算に関する規格の考察)
Outside Diameter (外径)
"From" End Diameter
Flange ID (フランジ内径)
Cylinder Length
Straight Flange Length
Overall Flange Length
Flat Head Thickness
Cone Length
Skirt Length
Finished Thickness
Nominal Thickness (呼び厚さ)
Internal Corrosion Allowance
External Corrosion Allowance
Wind Diameter Multiplier
Material Name
Longitudinal Seam Efficiency
Weld Joint Efficiency and Placement ダイアログ
Degree of Radiographic Examination and PWHT タブ
Element is Post Weld Heat Treated
Longitudinal Weld Seam Data タブ
3D ビューで溶接線を回転
Fatigue Pressure/Cycle and Cyclic Temperature ダイアログ
Circumferential Seam Efficiency
Internal Pressure
Temperature for Internal Pressure
External Pressure (外圧)
Temperature for External Pressure
Additional Element Data (General Input タブ)
Head Factor
Inside Head Depth
Method for Dimension Calc
Inside Crown Radius
Inside Knuckle Radius
Sump Head/Flange Connected to Nozzle
Parent Nozzle
'To' End Inside Diameter
Cone Length
Half Apex Angle
Line of Support Options
Has Flare or Knuckle?
Toricone ダイアログ
Inside Knuckle Radius (rL)
Knuckle Thickness
Crown Radius
Small End Knuckle Radius (rS)
Small End Knuckle Thickness
Is Concentric?
Shell Section
Force Arl & Ars calculation (VIII-1)
Welded Flat Head Attachment Sketch
Attachment Factor
Non-Circular Small Diameter
Maximum Weld Thickness (Head or Junction)
Large Central Opening in Head
Integral Flat Head with a Large Centrally Located Opening ダイアログ
Opening Diameter Bn
Large End Hub Tnk (g1s)
Small End Hub Thk (g0s)
Hub Length (hs)
Large End Hub Thk (g1n)
Small End Hub Thk (g0n)
Hub Length (hn)
Evaluate Uniform Patterned Holes?
Perform Flange Calculation
Flange Input ダイアログ
Select a Flange Type
Description
Flange Thickness
Flange ID (フランジ内径)
Flange OD
Face ID
Face OD
Gasket ID
Gasket OD
Thickness Large
Thickness Small
Hub Length
Bolt Material
Bolt Circle Diameter
Thread Series
Nominal Bolt Diameter
Number of Bolts
Root Area
Gasket Factor m | y
Sketch
Column
Gasket Thickness
Nubbin or RTJ Width
Base Required Thickness on Rigidity (ASME VIII-1)?
Include Corrosion in Flange Thickness Calculations?
Rigidity Calc. for Seating Case Uses Corroded Thickness?
Are the Hub and Attached Shell Materials the Same?
Is this a Standard Flange (No calculation performed)?
Weld Leg Back of Ring
Attached Shell Thickness
Lap Joint Contact Point ID
Lap Joint Contact Point OD
Number of Splits in Ring
Calculate Cover Deflection (multi-pass unit)?
Allowable Cover Deflection
Diameter (Long Span)
Diameter (Short Span)
Perimeter Along Bolt Circle Centerline
Class
Grade
Nom
ANSI Series
Get Flange Dimensions Now
Use Full Bolt Load in Calc (Sa*Ab)?
Just Like
Copy Now
Design
Torque \ Loads \ Partition Gasket Information
Operating, Wm1
Seating, Wm2
Design, W
Axial Force
Bending Moment
Length
Width
Sketch
Column
Gasket Factor m | y
Perform Bolt Torque Calculations
Friction Factor
Main Gasket Ambient Elastic Modulus
Partition Gasket Ambient Elastic Modulus
Bolt Effective Length
Perform Bolt Checks per ASME PPC-1 Appendix O
Maximum Permissible Bolt Stress [Sbmax]
Minimum Permissible Bolt Stress [Sbmin]
Maximum Permissible Bolt Stress Prior to Flange Damage [Sfmax]
Target Assembly Gasket Stress [SgT]
Maximum Permissible Gasket Stress [Sgmax]
Minimum Gasket Operating Stress [Sgmin-O]
Minimum Gasket Seating Stress [Sgmin-S]
Nut Factor [K]
Fraction of Gasket Load Remaining after Relaxation [Phig]
Single Flange Rotation at Final Sfmax [Thetafmax]
Maximum Permissible Single Flange Rotation for Gasket at Operating Condition [Thetagmax]
Quick Results
Compute per EN 1591 or EN 13445 Annex G
EN 1591/Annex G Input Dialog Box
Choose Flange Design Code
Flange Data
ボルト穴径 (Pierced Bolt Hole Diameter) (d5)
閉止フランジ中心穴径 (Blank Flange Center Hole Diameter) (d9)
等価軸フランジ厚さ (Equivalent Axial Flange Thickness) (eF)
半径方向圧力厚さ (Radial Pressure Load Thickness) (eP)
スタブカラー外径 (Stub Collar OD) (d8)
Raised Face Depth (Fd)
接続シェル傾斜角度 (Connected Shell Wall Inclination Angle) (phis)
Node Number for Lookup
Bolting Data
有効ボルト径 (Effective Bolt Diameter) (dBe)
ボルト断面縮小長さ (Reduced Diameter Length) (ls)
ボルトくびれ径 (Waisted Bolt Diameter) (dBs)
締結長さ (Fastened Length) (lB)
Bolting-Up Method (Epsilon 1-)
Bolting-Up Method (Epsilon 1+)
Number of Joint Remakes (nR)
Friction Coefficient (MU)
Gasket / Facing Data
Form Type
Material Type
表の番号 (Table Index)
Gasket Type and Material
断面曲率半径 (Cross Sectional Curve Radius) (r2)
実曲面直径 (Real Curved Surfaces Diameter) (dG0)
シール面傾斜角 (Sealing Face Inclination Angle) (phiG)
Numerical Constant for Gasket Type (c1)
Loads Table
荷重タイプ (Load Type)
Flange Temp
Bolt % of Flange Temp
Pressure
Axial Force
Bending Moment M1
Bending Moment M2
CAESAR II Load Lookup
Gasket Table
荷重タイプ (Load Type)
最小圧縮応力 (Min Compressive Stress) (QA/Qsmin)
最大圧縮応力 (Max Compressive Stress) (Qsmax)
Compressive Emod (EG)
Creep Factor (PQR)
Reset Loads Table
Reset Gasket Table
Delete
OK
Cancel
Plot
Flange Weight
ANSI/DIN Class
ANSI/DIN Grade
Flange Type
Nominal Size Lookup
Skirt Diameter at Base
Perform Basering Analysis
Basering Analysis Considerations (ベースリング解析に関する検討事項)
Basering ダイアログ
Basering Design Data タブ
Basering Type
Basering Information
Basering Material
Basering Thickness
Basering ID
Basering OD
Bolt Circle Diameter (ボルトサークル径)
Corrosion Allowance
Bolting Information
Bolt Material
Type of Threads
Nominal Bolt Diameter
Number of Bolts
Bolt Corrosion Allowance (1/2 total)
Bolt Root Area
Bolt Shear Allowable
Bolt Friction Factor mu | Assembly Factor phi
Concrete Strength F'c/Fc <and> Modular Ratio Eplates/Ec
Lug Start Angle
Set Default Dimensions
Design Temperature (設計温度)
Basering Design Option
Method for Thkness Calc
E for Plates
Sy for Plates
Gusset Thickness
Dist. Between Gussets
Bottom Gusset Width
Top Gusset Width
Height of Gussets
Top Plate Thickness
Top Plate Width
Radial Width of Top Plate
Bolt Hole Dia in Plate
Use EIL Spec?
Bolt Diameter
% Applied to Bolt Area * Bolt Stress
Use AISI Design Method?
Use 2/3rds Yield for Basering/Top Plate Allowables per AISC F3-1?
Use 75% Yield for Basering/Top Plate Allowables per AISC F2-1?
Use 1/3 Increase per AISC A5.2?
Use Allowable Weld Stress per AISC Table J2.5?
Use the skirt stress to determine the concrete stress for the simplified method?
Determine the Basering design bolt load accounting for Load Case Factors?
Plot
Tailing Lug Data タブ
Centerline Offset
Lug Thickness
Pin Hole Diameter
Weld Size Thickness
Lug Height
Dist. from Skirt to Hole
Evaluate Holes in Skirt
Skirt Access Openings ダイアログ
Skirt Opening Analysis Considerations (スカート開口部の解析考慮事項)
参考文献
Design Constraints (設計条件) タブ
Design Pressure and Temperature Data (Design Constraints タブ)
Design Internal Pressure (設計内圧)
Design External Press
Design Internal Temp
Design External Temp
User Defined MAWP
User Defined MAPnc
Additional Ope. Static Press
Pressure Testing Data (Design Constraints タブ)
Shop Pressure Test Type
Corroded Pressure Test
Hyd. Allowable is 90% Yield
User Defined Test Pressure
Pressure Test Position (耐圧試験の容器姿勢)
Least Stress Ratio includes ANSI Flange Stresses
Compute Maximum Theoretical Test Pressure
Perform Field Pressure Test
Pressure Test Type
Pressure Test Position
Corroded Pressure Test
Projection from Top
Projection from Bottom
Projection from Bottom Ope
Flange Distance to Top
Miscellaneous Design Data (Design Constraints タブ)
Design Code
Datum Line Distance
Datum Line Options ダイアログ
Min. Des Metal Temperature
No UG-20(f) Exemptions
Construction Type
Service Type
Degree of Radiography
Miscellaneous Weight %
Use Higher Long. Stress
Consider Vortex Shedding
Is This a Heat Exchanger? (熱交換器なのか)
Fabrication Tolerance Quality Class
ASME Steel Stack
ASCE Wind Exposure
Factor of Safety
Mean Hourly Wind Speed
Is the Stack Lined?
Importance Factor (ASCE-7/STS)
Design Modification (Design Constraints タブ)
Select Wall Thickness for Internal Pressure
Select Wall Thickness for External Pressure
Select Stiffening Rings for External Pressure
Select Wall Thickness for Axial Stress
Load Cases (荷重ケース) タブ
Reset Cases
Global Scalar for WI Loads
Global Scalar for EQ Loads
Use and Allow editing of Local Scalars in the Load Cases
Set Load Cases to show WI and EQ Scalars
Stress Combination Load Cases (Load Cases タブ)
Corrode Case Components WE, WF and CW
Installation | Misc. Options
Equipment Installation and Miscellaneous Options Dialog Box
Platform Wind Area Calculation Method
List Dialog
Adjust detail elevations by
But only for "From" nodes > or =
Structural Database
Stiffener Type to Meet Inertia Requirements
For angle sections, are they rolled the "Hard Way"?
Bar thickness to use when designing new rings
Select From Standard Bar Ring List
Impact Factor (<1 NoCalc)
Lug Distances from Base
Compression Allowable Increase Factor
Weight to Use for Lifting Analysis
Calculated per which Method
Use New Metal Weight for Saddle Calcs
Number of intermediate supports to be used during the hydrotest
Installation Location
Combine Wind and Earthquake Loads
Fatigue Analysis
Wind Loads (Wind Data タブ)
Wind Design Code
Special Effective Wind Diameter & Blast Load Input (風荷重の特殊な有効径&爆風荷重入力) ダイアログ
Calculate Windload Diameter for Models with no Platforms
Calculate Effective Diameter for Wind Diameter Multipliers that are not 1
Factor to Account for Miscellaneous Attachments
Wind Projection Factor
Insulated Diameter of Overhead Line
Vessel Subject to Blast Loads
Blast Load Pressure
Shape Factor for Blast Load Analysis
Percent Wind for Hydrotest
As/Nz 1170:2002 & As/Nz 1170.2:2011 Wind Data (風荷重データ)
Design Wind Speed (As/Nz 1170:2002)
Wind Region (As/Nz 1170:2002)
Terrain Category (As/Nz 1170:2002)
Lee Effect Multiplier (Mlee) (As/Nz 1170:2002)
Hill Shape Factor (Mh) (As/Nz 1170:2002)
Wind Direction Multiplier (As/Nz 1170:2002)
Convert to Permissible Stress Gust Wind Speed (As/Nz 1170:2002)
Surface Roughness Height hr (As/Nz 1170:2002)
Site Elevation (E) (As/Nz 1170:2002)
Base Elevation from Site (Eb) (As/Nz 1170:2002)
Avg Spacing of Shielding Bldgs (As/Nz 1170:2002)
Avg Breadth of Shielding Bldgs (bs) (As/Nz 1170:2002)
Avg Height of Shielded Bldgs (hs)
# of Upwind Bldgs @ 45 degrees (As/Nz 1170:2002)
Beta: Operating (As/Nz 1170:2002)
Beta: Empty (As/Nz 1170:2002)
Beta: Full (As/Nz 1170:2002)
ASCE-93 Wind Data (風荷重データ)
Design Wind Speed
Exposure Constant (ASCE-93)
Base Elevation
Importance Factor (ASCE-93)
Roughness Factor (ASCE-93)
Beta: Operating (ASCE-93)
Beta: Empty
Beta: Full (ASCE-93)
ASCE-95 & ASCE-98/02/05/IBC-03 Wind Data (風荷重データ)
Basic Wind Speed (V)
Base Elevation
Terrain Surface Roughness
Importance Factor
Type of Surface
Hill Height [H]
Distance to Site [x]
Crest Distance [Lh]
Type of Hill
Beta: Operating
Beta: Empty
Beta: Full
ASCE-2010/2016/2022 Wind Data (風荷重データ)
Basic Wind Speed (V)
Base Elevation
Terrain Surface Roughness
Importance Factor (I)
Type of Surface
Hill Height [H]
Distance to Site [x]
Crest Distance [Lh]
Type of Hill
Beta: Operating
Beta: Empty
Beta: Full
Brazil NBR 6123 Wind Data
Basic Wind Velocity (Vo) (Brazil NBR 6123)
Topographic Factor (S1) (Brazil NBR 6123)
Roughness Category (S2) (Brazil NBR 6123)
Dimension Class (Brazil NBR 6123)
Statistical Factor (S3) (Brazil NBR 6123)
Base Elevation (Brazil NBR 6123)
Vessel Surface Condition (Brazil NBR 6123)
Beta: Operating (Brazil NBR 6123)
Beta: Empty (Brazil NBR 6123)
Beta: Full (Brazil NBR 6123)
BS6399-97 Wind Data
Design Wind Speed (BS6399-97)
Site Elevation (BS6399-97)
Upwind Building Height Ho (BS6399-97)
Upwind Building Spacing X (BS6399-97)
Base Elevation (BS6399-97)
Vessel Location (BS6399-97)
Distance to Coastline (BS6399-97)
Size Effect Factor Ca (BS6399-97)
Factor Kb from Table 1 (BS6399-97)
Annual Probability Factor Q (BS6399-97)
Seasonal Factor Ss (BS6399-97)
Directional Factor Sd
Vessel Surface Type (BS6399-97)
Beta: Operating (BS6399-97)
Beta: Empty (BS6399-97)
Beta: Full (BS6399-97)
China GB 50009 Wind Data (風荷重データ)
Ref. Wind Pressure (wo)
Terrain Roughness Category
Vessel Surface Condition
Base Elevation (China GB 50009)
Is the Vessel Building Supported?
Beta: Operating (China GB 50009)
Beta: Empty (China GB 50009)
Beta: Full (China GB 50009)
EN 2005 と EN 2010 Wind Data (風荷重データ)
Ref. Wind Velocity Vb,0
Terrain Category
C Dir
C Season
CsCd
Force Coefficient Cf
Base Height
Euro Code Wind Data
Ref. Wind Velocity Vref,0 (Euro Code)
Terrain Category (Euro Code)
C Dir (Euro Code)
C Tem (Euro Code)
C Alt (Euro Code)
G Peak (Euro Code)
Force Coefficient Cf (Euro Code)
Base Height (Euro Code)
Cd (used if > 0.94) (Euro Code)
Beta: Operating (Euro Code)
Beta: Empty (Euro Code)
Beta: Full (Euro Code)
IBC 2006, 2009, 2012, 2015, 2018 Wind Data (風荷重データ)
Basic Wind Speed (V)
Terrain Surface Roughness (IBC 2006, IBC 2009, and IBC 2012)
Base Elevation
Importance Factor
Type of Surface
Hill Height [H]
Distance to Site [x]
Crest Distance [Lh]
Type of Hill
Beta: Operating
Beta: Empty
Beta: Full
IS-875 Wind Data
Use IS-875
Importance Factor (IS-875)
Basic Wind Speed (IS-875)
Base Elevation (IS-875)
Wind Zone Number (IS-875)
Risk Factor (IS-875)
Terrain Category (IS-875)
Equipment Class (IS-875)
Topography Factor (IS-875)
Use the Gust Response Factor? (IS-875)
Compute Cf from Table 23? (IS-875)
Beta: Operating (IS-875)
Beta: Empty (IS-875)
Beta: Full (NBC-95)
JPI-7R-35-2004 Wind Data
Design Wind Speed (JPI)
Base Elevation (JPI)
Exposure Constant (JPI)
KBC 2016 Wind Data
Basic Wind Speed (KBC 2016)
Base Elevation
Terrain Surface Roughness (KBC 2016)
Importance Factor [I] (KBC 2016)
Type of Surface (KBC 2016)
Hill Height [H] (KBC 2016)
Horizontal Crest Distance [x]
Crest Distance [Lh] (KBC 2016)
Type of Hill (KBC 2016)
Beta: Operating (KBC 2016)
Beta: Empty (KBC 2016)
Beta: Full (KBC 2016)
Mexico Wind Data
Design Wind Speed (Mexico 1993)
Site Elev Above Sea Level (Mexico 1993)
Base Elevation (hb) (Mexico 1993)
Structure Class (Mexico 1993)
Terrain Category (Mexico 1993)
Year of Analysis
Topographic Factor (Ft) (Mexico 1993)
Damping Factor (Zeta) (Mexico 1993)
Drag Coefficent (Ca) (Mexico 1993)
Strouhal Number (St) (Mexico 1993)
Barometric Height (Omega) (Mexico 1993)
Ambient Temperature (T) (Mexico 1993)
Damping Factor Empty (Zeta) (Mexico 1993)
Damping Factor Full (Zeta) (Mexico 1993)
Mexican Wind Code En Español
NBC-95 および NBC-2005 Wind Data (風荷重データ)
Reference Velocity Pressure (q)
Design Wind Speed
Importance Factor (Iw)
Base Elevation
Exposure Constant
Surface Roughness
Hill Height [Hh]
Distance to Site [x]
Crest Distance [Lh]
Type of Hill
Beta: Operating
Beta: Empty
Beta: Full
NBC-2010 Wind Data (風荷重データ)
Reference Velocity Pressure (q)
Design Wind Speed
Importance Factor (Iw)
Base Elevation
Exposure Constant
Surface Roughness
Hill Height [Hh]
Distance to Site [x]
Crest Distance [Lh]
Type of Hill
Beta: Operating
Beta: Empty
Beta: Full
NBC-2015 Wind Data (風荷重データ)
Reference Velocity Pressure (q)
Design Wind Speed
Importance Factor (lw) (NBC 2015)
Base Elevation
Exposure Constant
Surface Roughness
Hill Height [Hh]
Distance to Site [x]
Crest Distance [Lh]
Type of Hill
Beta: Operating
Beta: Empty
Beta: Full
SANS 10160-3:2010 Wind Data (風荷重データ)
Percent Wind for Hydrotest
Basic Wind Speed (SANS 10160-3)
Terrain Category (SANS 10160-3)
Base Elevation (SANS 10160-3)
Site Altitude above Sea Level (SANS 10160-3)
Topography Factor (Co) (SANS 10160-3)
Force Coefficient Cf (SANS 10160-3)
Beta: Operating (SANS 10160:3)
Beta: Empty (SANS 10160-3)
Beta: Full (SANS 10160:3)
UBC Wind Data
Design Wind Speed (UBC)
Base Elevation (UBC)
Exposure Constant
Importance Factor
Beta: Operating (UBC)
Beta: Empty (UBC)
Beta: Full (UBC)
Wind Profile Table (風荷重分布)
Beta: Operating (User Defined)
Beta: Empty (User Defined)
Beta: Full (User Defined)
Seismic Loads (Seismic Data タブ)
Seismic Design Code
Percent Seismic for Hydrotest
AS/NZ 1170.4 Seismic Data
Code Year
Importance Factor (I)
Structural Response Factor (Rf)
Site Factor (S)
Acceleration Coefficient (ax)
Design Category
Probability Factor (kp)
Hazard Factor (Z)
Structural Performance Factor (Sp)
Structural Ductility Factor (mu)
Soil Type
Verify base shear meets 80% criteria, per 6.2.3? (AS/NZ 1170.4)
Kt (AS/NZ 1170.4)
Component Elevation Ratio (hx/hn)
Attachment Amplification Factor (ac)
ASCE-88 Seismic Data
Importance Factor
Soil Type
Horizontal Force Factor
Seismic Zone
ASCE-93 Seismic Data
Seismic Coefficient Av
Seismic Coefficient Cc
Performance Factor
Amplification Factor
ASCE-95 Seismic Data
Importance Factor I
Force Factor R
Seismic Coefficient Ca
Seismic Coefficient Cv
ASCE 7-98 Seismic Data
Importance Factor I
Response Factor R
Acc. Based Factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Use ASCE-7 2005 Code?
Component Elevation ratio z/h
Component Amplification Factor ap
Consider Vertical Accelerations (ASCE 7-98)
Force Factor (ASCE 7-98)
Minimum Acceleration Multiplier (ASCE 7-98)
Sds (ASCE 7-98)
Sd1 (ASCE 7-98)
ASCE 7-02/05 Seismic Data
Importance Factor I
Response Factor R
Acc. Based Factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Use ASCE-7 2005 Code?
Component Elevation ratio z/h
Component Amplification Factor ap
ASCE-2010 / ASCE/SEI 7-16 Seismic Data (地震荷重データ)
Importance Factor I
Response Factor R
Acc. Based factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Component Elevation Ratio z/h
Component Amplification Factor ap
Consider Vertical Accelerations
Force Factor
Minimum Acceleration Multiplier
Sds
Sd1
ASCE/SEI 7-2022 Seismic Data (地震荷重データ)
CAR Factor
Rpo Factor
OmegaO Factor
Chile NCh2369 Seismic Data
Eff. Max. Ground Acc. (Ao)
Soil Parameter (T')
Soil Parameter (n)
Damping Ratio (Xi)
Response Mod. Factor (R)
Coefficient of Importance (I)
Chile NCh2369 En Español
China GB 50011 Seismic Data
Alpha1 from 5.1.4
DeltaN from 5.2.1
Costa Rica 2002 Seismic Data
Importance Factor (Costa Rica)
Over resistance factor (Costa Rica)
Soil Type (Costa Rica)
Seismic Zone (Costa Rica)
Global Ductility (Costa Rica)
Peak acceleration (Costa Rica)
Spectral Dynamic Factor (Costa Rica)
EN 1998-1:2004 Seismic Data
Ground Type (EN 1998-1)
Lower Limit Period Acc. Value [Tb] (EN 1998-1)
Upper Limit Period Acc. Value [Tc] (EN 1998-1)
Beginning Displacement Range Value [Td] (EN 1998-1)
Soil Factor [S] (EN 1998-1)
Design Ground Acceleration [ag] (EN 1998-1)
Behavior Factor [q] (EN 1998-1)
% of Horizontal Load Applied to Vertical (EN 1998-1)
G Loading Seismic Data
Importance Factor
Long. Acceleration (Gx), Lateral Acceleration (Gz), and Vertical Acceleration (Gy)
IBC 2000 Seismic Data
Importance Factor I
Response Factor R
Acc. Based Factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Component Elevation ratio z/h
Component Amplification Factor ap
IBC 2003 Seismic Data
Importance Factor I
Response Factor R
Acc. Based Factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Component Elevation ratio z/h
Component Amplification Factor ap
IBC 2006 Seismic Data
Importance Factor I
Response Factor R
Acc. Based Factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Component Elevation ratio z/h
Component Amplification Factor ap
IBC 2009 Seismic Data (地震荷重データ)
Importance Factor I
Response Factor R
Acc. Based Factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Component Elevation ratio z/h
Component Amplification Factor ap
Consider Vertical Accelerations (ASCE 7-98)
Force Factor (ASCE 7-98)
Minimum Acceleration Multiplier (ASCE 7-98)
Sds (ASCE 7-98)
Sd1 (ASCE 7-98)
IBC 2012 Seismic Data
Importance Factor I
Response Factor R
Acc. Based Factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Component Elevation ratio z/h
Component Amplification Factor ap
Consider Vertical Accelerations (ASCE 7-98)
Force Factor (ASCE 7-98)
Minimum Acceleration Multiplier (ASCE 7-98)
Sds (ASCE 7-98)
Sd1 (ASCE 7-98)
IBC 2015 Seismic Data
Importance Factor I
Response Factor R
Acc. Based Factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Component Elevation ratio z/h
Component Amplification Factor ap
Consider Vertical Accelerations (ASCE 7-98)
Force Factor (ASCE 7-98)
Minimum Acceleration Multiplier (ASCE 7-98)
Sds (ASCE 7-98)
Sd1 (ASCE 7-98)
IBC 2018 Seismic Data (地震荷重データ)
Importance Factor I
Response Factor R
Acc. Based Factor Fa
Acc. Based Factor Fv
Max. Mapped Res. Acc. Ss
Max. Mapped Res. Acc. S1
Moment Reduction Value tau
Site Class
Component Elevation ratio z/h
Component Amplification Factor ap
Consider Vertical Accelerations (ASCE 7-98)
Force Factor (ASCE 7-98)
Minimum Acceleration Multiplier (ASCE 7-98)
Sds (ASCE 7-98)
Sd1 (ASCE 7-98)
IS-1893 RSM Seismic Data
IS1893 Code Edition (IS-1893 RSM)
Importance Factor (IS-1893 RSM)
Soil Factor (IS-1893 RSM)
Zone Number (IS-1893 RSM)
Period of Vibration (IS-1893 RSM)
Percent Damping
Overriding "Fo" value if > 0
Soil Type
Force Factor R
Vessel is attached to a building and projects over the roof?
Consider Vertical Accelerations? (IS-1893 RSM)
Optional Sa/g vs. Time Period Input
IS-1893 SCM Seismic Data
Importance Factor (IS-1893 SCM)
Soil Factor (IS-1893 SCM)
Zone Number (IS-1893 SCM)
User Alpha H (IS-1893 SCM)
KBC 2016 Seismic Data (地震荷重データ)
Importance Factor [I] (KBC 2016 Seismic)
Response Modification Factor (R) (KBC 2016 Seismic)
Site Coefficient for Short Periods Fa (KBC 2016 Seismic)
Site Coefficient for 1 Second Period Fv (KBC 2016 Seismic)
Max. Mapped Res. Acc. Ss (KBC 2016 Seismic)
Maximum Effective Ground Acceleration S (KBC 2016 Seismic)
Moment Reduction Value tau (KBC 2016 Seismic)
Site Class (KBC 2016 Seismic)
Component Elevation ratio z/h (KBC 2016 Seismic)
Component Amplification Factor ap (KBC 2016 Seismic)
Consider Vertical Accelerations (KBC 2016 Seismic)
Force Factor (KBC 2016 Seismic)
Minimum Acceleration Multiplier (KBC 2016 Seismic)
SDS (KBC 2016 Seismic)
SD1 (KBC 2016 Seismic)
KHK 2012 Seismic Data (地震荷重データ)
Seismic Level (KHK)
Seismic Zone (KHK)
Soil Profile (KHK)
Importance Class (KHK)
Damping Factor (KHK)
Natural Period (KHK)
Vertical Response Magnification Factor (KHK)
Horizontal Response Magnification Factor (KHK)
Height from Base to Grade (KHK)
Use Article 6 (Modified Seismic Coefficient Method) when Possible (KHK)
Mexico Sismo Seismic Data
Code Year
Seismic Zone
Structure Group
Soil Type
Behavior Factor Q
Effective Absorption Factor
Orthogonal Increase Factor
Maximum Acceleration ao
Design Coefficient c
Control Period Ta
Control Period Tb
Control Period Tc
Spectrum Parameter k
Spectrum Parameter r
Damping Factor (B) (optional)
Ductility Factor Q
Overresistance Factor (R) (optional)
Specification Factor Fa
Consider the Rotational Force Effect
Site Velocity Vs
Site Factor (Fs)
Mexico Sismo En Español
NBC 1995 Seismic Data
Importance Factor
Soil Type
Force Modification Factor
Acceleration Seismic Zone
Velocity Seismic Zone
NBC 2005 Seismic Data
Importance Factor (IE)
Site Class
Overstrength Factor (Ro)
Ductility Factor (Rd)
Accelerations from Appendix C Division B
Component Elevation Ratio (hx/hn)
Component Amplification Factor (Rp)
Element or Component Factor (Cp)
Component Force Amp. Factor (Ar)
NBC 2010 Seismic Data (地震荷重データ)
Importance Factor (IE)
Site Class
Overstrength Factor (Ro)
Ductility Factor (Rd)
Accelerations from Appendix C Division B
Component Elevation Ratio (hx/hn)
Component Amplification Factor (Rp)
Element or Component Factor (Cp)
Component Force Amp. Factor (Ar)
NBC 2015 Seismic Data (地震荷重データ)
Importance Factor (IE)
Site Class
Overstrength Factor (Ro)
Ductility Factor (Rd)
Peak Ground Acceleration (PGA) (2015)
Accelerations from Appendix C Division B
Component Elevation Ratio (hx/hn)
Component Amplification Factor (Rp)
Element or Component Factor (Cp)
Component Force Amp. Factor (Ar)
PDVSA
Characteristic Accel. (a*)
Gamma
Annual Probability
Damping Factor
Ductility Factor
Beta Factor
T* Factor
T+ Factor
Phi Factor
Venezuela Seismic Code En Español
Res. Spectrum Seismic Data
Response Spectrum Name
Importance Factor
Shock Scale Factor X | Y dir
Zero Period Acceleration
Combination Method
Acc. Based factor Fa (Res. Spectrum)
Acc. Based Factor Fv (Res. Spectrum)
Max. Mapped Res. Acc. Ss (Res. Spectrum)
Max. Mapped Res. Acc. Sl (Res. Spectrum)
Response Factor R (Res. Spectrum)
Coefficient Cd
Range Type
Ordinate Type
Include Missing Mass Components
Edit / Review Spectrum Points
SANS 10160-4:2010 Seismic Data (地震荷重データ)
Reference Horizontal Peak Ground Acceleration
Ground Type
Behavior Factor
UBC 1994 Seismic Data
Importance Factor
Soil Type
Horizontal Force Factor
Seismic Zone
UBC 1997 Seismic Data
Importance Factor
Seismic Coefficient Ca
Seismic Coefficient Cv
Near Source Factor Nv
Seismic Zone
Force Factor R or Rp
Apply Allowables per 1612.3.2
Component Elevation Ratio hx/hr
Component Amplification Factor ap
Report Headings (Heading タブ)
Heading Text
Title Page Text
Set Title
図面および改訂情報
Reference #
Revision #
Client Name
Drawing #
Contract Date
PDF ヘッダー
PDF プロジェクト ページ
PV Elite 解析
計算と容器解析結果の表示
オプションとしてのステップ
ノズル解析
出力処理
レポート見出しのカスタマイズ
会社名のカスタマイズ
タイトルページのカスタマイズ
デフォルトフォントの設定
Microsoft Word へのレポートの保存
PDF へのレポートの保存
Output Processor ダイアログ
Material ダイアログ
Material Database ダイアログ
Material Database 注記
Material Properties (材料特性) ダイアログ
ASME 特性
Material Name
Listing # (リスト #)
Yield Stress, Design <or> Yield Stress, Operating
Allowable Stress, Design <or> Allowable Stress, Operating
Allowable Stress, Ambient
Allowable Stress, Hydrotest
Nominal Material Density
Nominal Thickness for this P Number <or> P Number Thickness
External Pressure Curve Name <or> External Pressure Chart Name
UCS-66 Curve
Is the Material Normalized? <or> Obtain Curve
Elastic Module Reference # (縦弾性係数参照番号)
Thermal Expansion Coefficient ID <or> Expansion Coefficient Reference #
Has this Material been Impact Tested?
Yield Stress
PD 5500 Properties (PD 5500 特性)
Maximum Thickness
Minimum Tensile Strength
Minimum Yield Strength
Material Density
Material Factor
比較ユーティリティの概要
PV Elite Results Comparison ウィンドウ
Comparison Utility でファイルを比較する
結果ファイル出力を PV Elite で設定する
PV Comparison をコマンド行から実行する
バッチファイルを使用して解析と比較を実行
出力された比較ファイルの確認
キーボードとマウス コマンド
Vessel Example Problems (容器例題)
法律情報
著作権表示
カスタマー サポート
Anti-Piracy Statement
用語集
Missing Title
FCA
gl
gw
LTA
MAPnc
MAWP
Slen
wmax