| ENGINEERING ANALYSIS |
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1. FINITE ELEMENT ANALYSIS (FEA) USING ANSYS® |
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a. Methods Used |
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1. Axisymmetric / Three Dimensional
2. Linear and Non-Linear
3. Steady State and Transient
4. Static and Dynamic
5. Deterministic and Probabilistic |
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b. Problems analyzed |
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1. Thermal / Structural Discontinuities
2. Fatigue under Cyclic Loading
3. Creep in High / Low Temperatures
4. Fatigue in High Temperature Creep Range
5. Vibration
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2. COMPUTATIONAL FLUID DYNAMICS (CFD) |
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a. Steady state and transient analysis
b. Laminar and turbulent analysis
c. Determination of thermal film coefficient due to flow
field
d. Integration of CFD with structural FEA
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3. FITNESS FOR SERVICE — COMPUTATIONAL
ANALYSIS |
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a. Criteria Used
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1. API 579
2. PD 6493
3. BS 5500 |
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b. Investigations |
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1. Fracture Analysis
2. Fatigue Analysis
3. Elevated Temperature Evaluation
4. Failure Evaluation
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4. PRESSURE VESSEL / HEAT EXCHANGER / API
TANK DESIGN |
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a. ASME Section VIII, Division 1, 2, and 3
b. ASME Section I
c. TEMA
d. API 620 and 650
e. ANSI Stack Design
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5. RE- RATES / ALTERATIONS OF ASME CODE PRESSURE VESSELS
AND HEAT EXCHANGERS IN ACCORDANCE WITH NBIC AND API
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6. INQUIRY PREPARATION FOR END USERS -- FEED |
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a. Design / Drawings
b. Cost Estimating
c. Scheduling
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7. PIPING ANALYSIS |
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a. ASME /ANSI B31.1 Power piping
b. ASME /ANSI B31.3 Chemical Plant and Petroleum Refinery
Piping
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