<span lang=""><p>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nb sp; BASIC PIPING DESIGN AND STRESS ANALYSIS </p></span><p><font face="Verdana" size="2"><font face="Verdana" size="2">–</font></font><font face="Verdana" size="2"><font face="Verdana" size="2">SEP-DEC 2015.</font></font></p><font face="Verdana" size="2"><font face="Verdana" size="2"><br><p>PLANT design MANAGEMENT SYSTEM(PDMS)-3D PLANT MODELING</p></font></font><font face="Verdana" size="2"><font face="Verdana" size="2"><p><br><br><strong>PDMS SCOPE</strong>s.(4weeks-50 HRS)<br><br>A. Equipment DESIGN (vessels, pumps, heat exchanger, assemblies, air coolers)<br><br>B. Piping DESIGN INCLUDING explicit piping for piping engineers<br><br>C. Structural steelwork (column, beams, panels and plates, wall and floors)for civil<br><br>And structural engineers<br><br>D. ASL MODELLER (Access, stairs and ladder) for structural and civil engineers<br><br>E. Cable trays for electrical and electronics &amp;instrument engineers<br><br>2. Production of MTO’s and piping general assembly<br><br>3. Conversion from PDMS Draft &amp; Isodraft to AutoCAD format.<br><br>4. Customizing PDMS<br><br>5. Plant layout and drafting interpretation<br><br>6. Using ASME code<br><br>The training will be based on ASME B31.3 &amp;B31.4 CODE.<br><br>At the end of the training, a PILOT project on modeling of an liquefied petroleum gas plant (COOKING GAS PLANT) will be carried out by the trainee.<br><br><br><br><strong>.CAESARII SCOPE(2WEEKS)-PIPE STRESS ANALYSIS.</strong><br><br>1. Basic functions of a pipe stress engineer, with emphasis on the relationship between the discipline and piping design.<br><br>2. Sources and solutions to piping stress related problems.<br><br>3. Pipe support standards.<br><br>4. Introduction to stress analysis<br><br>5. Setting pipe models for stress analysis<br><br>6.analysis Of rotating equipment<br><br>7. Undergroumd/buried pipeline stress analysis</p><br><p>8.Subsea pipeline design and stress analysis.</p><br><p>9.surface piping stress analysis.<br><br></p><br><strong><p>FULL PACKAGE AUTOCAD (2D, 3D&amp;ISOMETRICS)(4weeks)</p><br></strong><p>COURSE CONTENT-2D DRAFTING &amp; 3D MODELLING<br><br>a. AutoCAD general<br><br>b. AutoCAD mechanical<br><br>c. AutoCAD PID, piping and instrumentation design.<br><br>D. AutoCAD structural /architectural.<br><br>AUTOCAD 2D DRAFTING<br><br>B. AUTOCAD MECHANICAL<br><br>1. DESIGN OF BASIC MECHANICAL COMPONENTS.(BOLTS,NUTS,FLANGES,E.T.C<br><br>2. INTERPRETATION OF METRIC AND IMPERIAL STANDARDS.AND DESIGN IMPLICATIONS.<br><br>3. Machine drawing<br><br>C. AUTOCAD PIPING.<br><br>1. PIPE DRAFTING AND DESIGN (PIPE ISOMETRICS, DOUBLE AND SINGLE LINE DRAFTING)<br><br>2.PIPING AND INSTRUMENTATION DIAGRAMS (P&amp;ID),<br><br>4.PROCESS FLOW DIAGRAMS/SHEETS (PFD/PFS)<br><br>D.AUTOCAD CIVIL/STRUCTURAL/<br><br>1. House plan and elevations<br><br>2. BEAMS AND COLUMN DESIGN<br><br>3. SLAB DESIGN<br><br>AUTOCAD 3D MODELLING,<br><br>1. Introduction to 3d fundamentals-BASIC TOOLS (MODELING TOOL,SOLID EDITING,VIEWS,VISUAL STYLES ,3D MODIFY)<br><br>2. Modeling of structures (houses, PLATFORMS etc.)<br><br>3. Modeling of mechanical parts and components i.e. mechanical coupling<br><br>4. Modeling of piping components (elbows, tees, flange, reducer, valves, etc.) FOR 3D PIPING<br><br>5. DESIGN OF EQUIPMENTS (, pumps, pressure vessels, heat exchangers, e.tc)<br><br>6. Project and assessment</p><br><strong><p>Prerequisite</p></strong><p>:<strong>All categories of oil and gas workers(Engineering and Non-engineering)/interested non-oil and gas workers. and applicants</strong></p><strong><br></strong><p>Date: batch dates -1<sup>ST SEPT,16TH SEP,23RD SEPT,5TH OCT,20TH OCT,3OTHOCT,3RD NOV ,17TH NOV,24TH NOV,2ND DEC,9TH DEC,16TH DEC,22ND DEC. 2015-4TH JANUARY 2016.</sup></p><sup><br><p>VENUE:ELDEMUZ ENGINEERING CENTRE </p><br><p>1ST&nbsp; FLOOR 60 ABA ROAD BY CRAFT CENTRE BUSSTOP </p><br><p>PORTHARCOURT.</p><br><p>info @eldemuz.com,[email protected]<br><br>08038812638 ,08064673745.</p><br></sup></font><sup></sup></font><sup><font size="3"></font></sup><font size="3"></font>