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presentation of the work and deliverables of all engineering disciplines involved in the execution of a capital project. A sample of all common deliverables issued by each engineering discipline is ...

presentation of the work and deliverables of all engineering disciplines involved in the execution of a capital project. A sample of all common deliverables issued by each engineering discipline is shown. The work process / wrok sequence is explained. The challenges are explained.

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Oil & gas engineering training Presentation Transcript

  • 1. HERVE BARON Oil & Gas Engineering Training
  • 2. HERVE BARON Dear colleague, I am glad to share with your this educative material on the Engineering of Oil & Gas facilities. I developed it for classroom training sessions which I have been conducting since 2009. This material will give you an overview of the work and deliverables of the different engineering disciplines. I also thrived to produce workflow visuals to help understand the work sequence of each discipline and how they interface. I wish you an enjoyable journey within Engineering…
  • 3. HERVE BARON Oil & Gas Engineering Training HSE Moment Intro, scope & objectives Project Engineering The Design Basis Discipline presentations Field engineering Schedule Quality
  • 4. HERVE BARON Do you think that HSE is only for HSE professionals? Do you think you cannot do your bit when visiting a Site? Any thing wrong your are able to identify on the following pictures? Let’s see…
  • 5. HERVE BARON Do you think that HSE is only for HSE professionals? Comments?
  • 6. HERVE BARON Comments?
  • 7. HERVE BARON Comments?
  • 8. HERVE BARON Comments?
  • 9. HERVE BARON Comments?
  • 10. HERVE BARON Comments?
  • 11. HERVE BARON Site visits? You, me … We can all do our bit to point out UNSAFE situations
  • 12. HERVE BARON Oil & Gas Engineering Training HSE Moment Intro, scope & objectives Project Engineering The Design Basis Discipline presentations Field engineering Schedule Quality
  • 13. HERVE BARON Training Objectives • To give a detailed knowledge of what engineering of oil and gas facilities consist of •To describe the activities and show a sample deliverable in the various disciplines •To explain the challenges Scope
  • 14. HERVE BARON
  • 15. HERVE BARON
  • 16. HERVE BARON Oil & Gas Engineering Training HSE Moment Intro, scope & objectives Project Engineering The Design Basis Discipline presentations Field engineering Schedule Quality
  • 17. HERVE Design BARON Installation Procurement Manufacturing Construction & erection Inspection & tests Shipping Hand-over
  • 18. HERVE BARON Home office (Paris) •Project management •Detail Engineering (part) •Procurement Engineering SubContractor (Delhi) Detail Engineering (part) Shipyard (Korea) Hull Engineering & Fabrication Satellite office (Pau) •Detail Engineering (part) Fabrication yard (Nigeria): Fabrication (part) Offshore (Nigeria): Installation, commissioning, start-up Shipyards (Singapore & Malaysia) Topsides Fabrication & Integration
  • 19. HERVE BARON Project Engineering Procurement Construction
  • 20. HERVE BARON
  • 21. HERVE BARON Project Engineering Instrumentation & Control Layout & Piping Process Procurement Construction Electrical Equipment Civil Safety
  • 22. HERVE BARON Engineering document register Discipline code A C Civil engineering E Electrical G Project general documents J Mechanical K Safety M Piping & Layout P Document revision Instrumentation & Control Processes S Steel Structures V Vessels – Heat exchangers W Materials – Welding Document number Document title A 1 48104 Service building instrument. rooms cables routing B A 2 48102 Trouble shooting diagrams D A 3 48134 F&G system architecture drawing E A 4 50100 Instrument index B A 7 50003 Spec for instrument installation works and service C A 8 50960 Instrument Data sheets for temperature switches B A 9 50110 Requisition for pressure relief valves B M 1 62059 General plot plan B M 2 62020 Piping details standard C 1 Installation drawings M 2 62070 Piping general arrangement Area 1 D 2 Detail drawings M 4 60100 Special items list D 3 Diagrams M 5 62250 Piping isometrics booklet C 4 Lists – Bill of Quantities M 6 60000 Pipes and fittings thickness calculation A 5 Isometrics M 6 62351 Calculation note CN1 - piping stress analysis A 6 Calculation notes M 7 60001 General piping specification C 7 Specifications M 8 60103 Data sheets for station piping material B 8 Data sheets M 9 60200 Requisition for pipes F 9 Requisitions Document code
  • 23. HERVE BARON Diagram Key plan Drawing
  • 24. HERVE BARON Drawings common sizes & scales 4 mm 1 cm 2 cm 1/33 A3 = 297x 420 2 mm 1/50 A4 = 210x 297 1 mm 1/100 A2 = 420x594 1/1000 1/250 A1 = 594x840 1m = 1/500 A0 = 840x1188 Scale 3 cm
  • 25. HERVE BARON Engineering schedule
  • 26. HERVE BARON Engineering resources Commissioning 9% Electrical 9% Mechanical Equipment 6% Instrumentation /ICSS/Telecom 10% Naval 4% Process 2% Others 6% Structural 23% ~1,000,000 man-hours Piping 31%
  • 27. HERVE BARON Client Documents submitted to client Approval/ Comments Design basis: Documents for Construction: - Functional requirements Construction drawings & specifications Engineering - Client specifications Documents for Purchase: bill of quantity & specification - Design codes Documents submission Comments Vendors
  • 28. HERVE BARON Oil & Gas Engineering Training HSE Moment Intro, scope & objectives Project Engineering The Design Basis Discipline presentations Field engineering Schedule Quality
  • 29. HERVE BARON Design Basis Infrastructure: Feedstock and products flow Feedstock composition Battery limit conditions Equipment Spare Pressure (bar) Process facilities: 50 Administrative and technical buildings 45 40 Control room 35 Access road 30 Site fencing, gates, check point 25 20 Performance: 15 Products specifications 10 Energy efficiency, emissions Design criteria: % of over design 5 0 -85 Utilities: Electric power supply Other utilities -80 -75 -70 -65 -60 -55 Environment data: Min/max temperature Rain/snow fall Wind Geological conditions Systems: Process control Fire/gas alarm Public address, LAN, PABX Applicable codes and standards: International standards Local rules
  • 30. HERVE BARON Oil & Gas Engineering Training HSE Moment Intro, scope & objectives Project Engineering The Design Basis Discipline presentations Field engineering Schedule Quality
  • 31. HERVE BARON Engineering disciplines Process Equipment HSE Civil Layout Piping Instrumentation Electrical
  • 32. HERVE BARON Functional requirements – example of a gas compression station Gas composition Performance
  • 33. HERVE BARON TEG HP Compression & TEG Gas Injection 1200 psig 3000 psig 500 psig 200 psig IP Compression From Wells 165 - 205 F HP Separator 500 psig 5500 psig 50 psig LP Compression 5 psig Cooler Emul. Treater 50 psig 150 F Process Scheme Optimization Degasser 5 psig Oil Production
  • 34. HERVE BARON Process simulations
  • 35. HERVE BARON Process Flow Diagram (PFD)
  • 36. HERVE BARON Equipment list
  • 37. HERVE BARON Thermodynamic calculations Heat & Material balance
  • 38. HERVE BARON Equipment sizing
  • 39. HERVE BARON Process data sheet
  • 40. HERVE BARON Fluid list
  • 41. HERVE BARON Piping & Instrumentation Diagram (P&ID) Line List
  • 42. HERVE BARON Piping & Instrumentation Diagram (P&ID)
  • 43. HERVE BARON P&IDs legend & symbols
  • 44. HERVE BARON Line sizing
  • 45. HERVE BARON Process automations: Cause & effect chart
  • 46. HERVE BARON Process control
  • 47. HERVE BARON Process safety
  • 48. HERVE BARON ESD logic diagram
  • 49. HERVE BARON ESD simplified diagram
  • 50. HERVE BARON Flare Report
  • 51. HERVE BARON
  • 52. HERVE BARON Operating manual
  • 53. HERVE BARON Quiz: Is this a P&ID? a PFD?
  • 54. HERVE BARON Engineering Process Equipment HSE Civil Layout Piping Instrumentation Electrical
  • 55. HERVE BARON Process design PFDs H&M balance Process data sheet Equipment specification Rotating Pressure vessels Fired equipment Heat exchangers Packages etc.
  • 56. HERVE BARON Equipment list
  • 57. HERVE BARON Rotating machinery
  • 58. HERVE BARON Pressure vessels
  • 59. HERVE BARON Heat exchangers
  • 60. HERVE BARON Packages
  • 61. HERVE BARON Process data sheet Mechanical data sheet
  • 62. HERVE BARON Vessel guide drawing
  • 63. HERVE BARON Material Requisition
  • 64. HERVE BARON
  • 65. HERVE BARON Bid technical evaluation
  • 66. HERVE BARON Vendor design
  • 67. HERVE BARON Equipment summary
  • 68. HERVE BARON Engineering Process Equipment HSE Civil Layout Piping Instrumentation Electrical
  • 69. HERVE BARON HAZOP Review RISK LEVEL RISK MATRIX FREQENCY SEVERITY
  • 70. HERVE BARON HAZOP Action sheet
  • 71. HERVE BARON
  • 72. HERVE BARON Fire Fighting
  • 73. HERVE BARON Fire Water demand calculation note
  • 74. HERVE BARON Fire Water P&IDs
  • 75. HERVE BARON Deluge system arrangement drawings
  • 76. HERVE BARON Fire fighting equipment location drawing
  • 77. HERVE BARON Passive fire protection drawing
  • 78. HERVE BARON Passive fire protection
  • 79. HERVE BARON Fire & Gas detection layout
  • 80. Hazardous area HERVE BARON classification drawing
  • 81. HERVE BARON Quantitative Risk Analysis (QRA) Case stuy: Gas leak from random piping component rupture Cause: installation error, corrosion, material defect… Possible consequence: Dispersion without ignition / jet fire / flash fire / explosion Section considered: Compressor building
  • 82. HERVE BARON Quantitative Risk Analysis (QRA) Step 1: Identification and characterisation of initiating events Σ risk components *failure rate (from statistics) Gas leak inside compressor buidling due to component rupture Hole size (% of component section) 5% Frequency (event/year) Outflow rate (kg/s) 20% Full 1,11E-01 5,06E-04 6,83E-05 5,7 90,8 2270,0
  • 83. HERVE BARON Quantitative Risk Analysis (QRA) Step 2: Event tree analysis Release Frequency Probability of immediate ignition for 1-50 kg/s release rate is 7% (from statistical data) Immediate ESD & Fire Fighting ignition 0,998 0,070 Delayed Ignition Explosion/ Flash-fire Consequence Event Frequency (ev/y) Gas detectors are provided inside the building, that activate isolation and depressurization. FFis Jet fire ESD & It 7,779E-03 assumed that they operate 95% of the time. 0,002 Jet fire no ESD & FF 1,520E-05 Probability of explosion vs flash fire depends on mass of gas and degree of confinement 1,11E-01 Release/yr 0,949 Dispersion 9,827E-02 0,120 Explosion 1,774E-05 0,880 Flash fire 1,301E-04 Dispersion 5,133E-03 0,930 0,028 0,051 0,972 Yes Frequency (event/year) Jet fire ESD & FF 7,779E-03 Jet fire no ESD & FF 1,520E-05 Explosion 1,774E-05 1,301E-04 Flash Fire Dispersion 1,034E-01 No B04a/b/c/d 5% Probability of delayed ignition takes into account equipment explosion protection (Ex)
  • 84. HERVE BARON Quantitative Risk Analysis (QRA) Step 3: Consequence evalutation Overpresssure (bar) 0.2 0.1 0.01 Distance (m) 96 167 1270 CONSEQUENCE CLASS QUANTITATIVE CRITERIA EFFECTS MINOR ≤0.1 bar locally (within 10m) No effect, no damage SIGNIFICANT ≤0.1 bar locally (within 50m) Limited damage to plant and operators SEVERE > 0.1 bar within plant Damage to plant and operators MAJOR > 0.1 bar on populated areas Damage to plant, operators & public
  • 85. HERVE BARON Quantitative Risk Analysis (QRA) Unacceptable risk area– Design change necessary Final step: classification of risk Release Frequency Immediate ESD & Fire Fighting ignition Delayed Ignition Explosion/ Flash-fire Consequence Event As Low As Reasonably Practicable – Plant Management measures Acceptable risk area Frequency (ev/y) 0,998 Jet fire ESD & FF 7,779E-03 0,002 Jet fire no ESD & FF 1,520E-05 0,070 1.0E-02 1,11E-01 Release/yr 0,949 Dispersion 9,827E-02 0,120 Explosion 1,774E-05 0,880 Flash fire 1,301E-04 Dispersion 5,133E-03 0,930 0,028 0,051 0,972 Yes Frequency (event/year) Jet fire ESD & FF 7,779E-03 Jet fire no ESD & FF 1,520E-05 Explosion 1,774E-05 Flash Fire 1,301E-04 Dispersion 1,034E-01 No B04a/b/c/d 5% 1.0E-03 1.0E-04 Unlikely 1.0E-05 Rare 1.0E-06 Minor Significant CONSEQUENCE CLASS QUANTITATIVE CRITERIA EFFECTS MINOR ≤0.1 bar locally (within 10m) No effect, no damage SIGNIFICANT ≤0.1 bar locally (within 50m) Limited damage to plant and operators SEVERE > 0.1 bar within plant Damage to plant and operators MAJOR > 0.1 bar on populated areas Damage to plant, operators & public Severe Major
  • 86. HERVE BARON Environmental Impact Assessment (Air quality dispersion analysis)
  • 87. HERVE BARON Noise Map dB(A)
  • 88. HERVE BARON
  • 89. HERVE BARON Engineering Process Equipment HSE Civil Layout Piping Instrumentation Electrical
  • 90. HERVE BARON Process design PFDs P&IDs H&M balance Piping Instrumentation Process data sheet Equipment specification Rotating Pressure vessels Fired equipment Heat exchangers Packages etc. Vendor drawings Layout Civil Electrical
  • 91. HERVE BARON
  • 92. HERVE BARON
  • 93. HERVE BARON
  • 94. HERVE BARON Grading plan Required finish level Native soil elevation
  • 95. HERVE BARON
  • 96. HERVE BARON
  • 97. HERVE BARON
  • 98. HERVE BARON
  • 99. HERVE BARON
  • 100. HERVE BARON Vendor information
  • 101. HERVE BARON Foundation Calculation
  • 102. HERVE BARON Foundation drawing/ re-inforcement
  • 103. HERVE BARON Foundation drawing/ Formwork
  • 104. HERVE BARON Civil works specification
  • 105. HERVE BARON
  • 106. HERVE BARON Loading data
  • 107. HERVE BARON Structural design
  • 108. HERVE BARON Calculation note
  • 109. HERVE BARON Structural drawings
  • 110. HERVE BARON Architectural drawings Equipment layout drawing
  • 111. HERVE BARON
  • 112. HERVE BARON
  • 113. HERVE BARON Heating, Ventilation &Air Conditioning (HVAC)
  • 114. HERVE BARON Civil Works Installation Drawings
  • 115. HERVE BARON
  • 116. HERVE BARON Standard drawings
  • 117. HERVE BARON Engineering Process Equipment HSE Civil Layout Piping Instrumentation Electrical
  • 118. HERVE BARON Process design PFDs P&IDs H&M balance Piping Instrumentation Process data sheet Equipment specification Rotating Pressure vessels Fired equipment Heat exchangers Packages etc. Vendor drawings Layout Civil Electrical
  • 119. HERVE BARON
  • 120. HERVE BARON
  • 121. HERVE BARON Layout/ principles
  • 122. HERVE BARON Layout/vendor drawings
  • 123. HERVE BARON Layout/consideration for all networks
  • 124. HERVE BARON General Plot Plan
  • 125. HERVE BARON Unit Plot Plan
  • 126. HERVE BARON
  • 127. HERVE BARON
  • 128. HERVE BARON 3D modelling
  • 129. HERVE BARON 3D model clash check
  • 130. HERVE BARON 3D model review
  • 131. HERVE BARON Equipment handling
  • 132. HERVE BARON Engineering Process Equipment HSE Civil Layout Piping Instrumentation Electrical
  • 133. HERVE BARON Process design PFDs P&IDs H&M balance Piping Instrumentation Process data sheet Equipment specification Rotating Pressure vessels Fired equipment Heat exchangers Packages etc. Vendor drawings Layout Civil Electrical
  • 134. HERVE BARON Line Diagram
  • 135. HERVE BARON
  • 136. HERVE BARON Piping Layout drawing
  • 137. HERVE BARON
  • 138. HERVE BARON
  • 139. HERVE BARON
  • 140. HERVE BARON Isometric drawing
  • 141. HERVE BARON Piping Pre-fabrication
  • 142. HERVE BARON Post Weld Heat Treatment
  • 143. HERVE BARON Piping Inspection and testing
  • 144. HERVE BARON Piping General Arrangement drawing
  • 145. HERVE BARON Calculations
  • 146. HERVE BARON
  • 147. HERVE BARON Standard Pipe Support drawings
  • 148. HERVE BARON
  • 149. HERVE BARON
  • 150. HERVE BARON Plot Plan Piping line diagram Piping installation work process Piping studies & layout Piping 3D modelling Piping stress analysis Piping isometric drawing Stress OK? Process OK? Piping isometric drawing IFC
  • 151. HERVE BARON
  • 152. HERVE BARON Material Selection
  • 153. HERVE BARON Material Selection Diagram
  • 154. HERVE BARON
  • 155. HERVE BARON Process Fluids list Piping material classes
  • 156. HERVE BARON Piping material classes Piping material class specification
  • 157. HERVE BARON Piping material classes specification
  • 158. HERVE BARON Piping material classes specification
  • 159. HERVE BARON Piping material classes specification
  • 160. HERVE BARON
  • 161. HERVE BARON
  • 162. HERVE BARON
  • 163. HERVE BARON
  • 164. HERVE BARON Σ
  • 165. HERVE BARON Piping material requisition
  • 166. HERVE BARON
  • 167. HERVE BARON Engineering Process Equipment HSE Civil Layout Piping Instrumentation Electrical
  • 168. HERVE BARON Piping & Instrumentation Diagram (P&ID)
  • 169. HERVE BARON
  • 170. HERVE BARON
  • 171. HERVE BARON Instrument list
  • 172. HERVE BARON Level sketch
  • 173. HERVE BARON Instrument data sheet
  • 174. HERVE BARON Process Control System
  • 175. HERVE BARON System Architecture drawing
  • 176. HERVE Process automations BARON
  • 177. HERVE BARON Control narrative
  • 178. HERVE BARON Mechanical Equipment Control
  • 179. HERVE BARON Emergency shutdown
  • 180. HERVE BARON The instrument hardware Instrument room Marshalling Controller cabinet Control room cabinet VDU PT JB Process line CPU LAN Secondary cable Multi cable
  • 181. HERVE BARON Junction Box drawing
  • 182. HERVE BARON Instrument location drawing
  • 183. HERVE BARON Building detail drawing/ Telecom and PAGA layout
  • 184. HERVE BARON Instrument standard installation drawings
  • 185. HERVE BARON Junction box wiring
  • 186. HERVE BARON Cable routing drawings Cable list
  • 187. HERVE BARON Instrument bulk Material Take-Off ITEM QUANTITY DESIGNATION 1 195 Gauge adapter – ½” x ½” 2 37 Block manifold 2 valves (Gas) – ½” 3 23 Block manifold 5 valves (Gas) –½” 4 0 Ball valve ½” – 12mm 5 300m 6 200 Reducer – 12mm x ¼” 7 50 Union tee – 12 x 12 x 12mm 8 50 Female connector – 12mm x ½” 9 350 Male connector – 12mm x ½” 10 9 Plug – ½” NPTF 11 8 Plug – ½” NPTM Tubing – 12mm OD x 1mm
  • 188. HERVE BARON Cable routing inside technical room
  • 189. HERVE BARON Instrumentation & control rooms layout
  • 190. HERVE BARON Screen displays
  • 191. HERVE BARON Instrument loop diagram
  • 192. HERVE BARON Engineering Process Equipment HSE Civil Layout Piping Instrumentation Electrical
  • 193. HERVE BARON Electrical consumer list
  • 194. HERVE BARON Electrical Load Summary
  • 195. HERVE BARON
  • 196. HERVE BARON General One Line Diagram
  • 197. HERVE BARON Generators Switchgear Transformer
  • 198. HERVE BARON Equipment data sheet
  • 199. HERVE BARON Switchboard Single Line Diagram
  • 200. HERVE BARON Switchgear Typical Diagram
  • 201. Bus Voltage (Volts) VOLTAGE OF MS-001 (STUDY1) HERVE 10000 BARON 9900 9800 9700 9600 9500 9400 9300 9200 9100 9000 8900 8800 0.0 2.5 5.0 7.5 10.0 12.5 Time (Seconds) 15.0 17.5 20.0 FREQUENCY OF MS-001 (STUDY1) Bus Frequency (Hz) 50.0 49.5 49.0 48.5 Calculations 48.0 47.5 47.0 0.0 2.5 5.0 7.5 10.0 Time (Seconds) 12.5 15.0 17.5 20.0
  • 202. HERVE BARON Cable routing drawing Cable schedule
  • 203. HERVE BARON Typical installation drawings
  • 204. HERVE BARON Block Diagram
  • 205. HERVE BARON Trouble shooting diagrams
  • 206. HERVE BARON Lighting layout
  • 207. HERVE BARON Lighting illumination level Iso lux curves
  • 208. HERVE BARON Electrical equipment layout
  • 209. HERVE BARON Electrical Control System
  • 210. HERVE BARON Electrical Control System
  • 211. HERVE BARON From main power generators From emergency (diesel) generators Electrical load shedding To normal consummers e.g. pumps in process and utility units To essential consummers e.g. fire water pump
  • 212. HERVE BARON Oil & Gas Engineering Training HSE Moment Intro, scope & objectives Project Engineering The Design Basis Discipline presentations Field engineering Schedule Quality
  • 213. HERVE BARON Field Engineering
  • 214. HERVE BARON Site Query
  • 215. HERVE BARON Site MASTER set of documents
  • 216. HERVE BARON Oil & Gas Engineering Training HSE Moment Intro, scope & objectives Project Engineering The Design Basis Discipline presentations Field engineering Schedule Quality
  • 217. HERVE BARON MONTH 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 PROJECT SCHEDULE PLANT START-UP PIPING PRE-FABRICATION & INSTALLATION X X X X X X X X X X PIPING MATERIAL & DRAWINGS AT SITE PIPING MATERIAL MANUFACTURING & SHIPPING X X X X X X PURCHASE OF PIPING MATERIAL TECHNICAL & COMMERCIAL CLARIFICATIONS X X CALL FOR TENDER FOR PIPING MATERIAL PREPARE PIPING MATERIAL TAKE-OFF X PIPING ROUTING STUDIES X X X PIPING & INSTRUMENTATION DIAGRAMS (PIDs) 5 4 1 1 2 3 5 3 4 2 5
  • 218. HERVE Process BARON simulations Process data sheet Equipment selection & purchase Vendor data Foundation drawings
  • 219. HERVE BARON
  • 220. HERVE BARON Engineering schedule Safety valves duty & data sheet (Process) Size & weight estimates Safety valves inquiry and purchase (procurement) Safety valves location & piping routing (piping/layout) Estimates must be done to meet the schedule Piping calcs & supports (piping/stress) Steel structure design and drawings (civil) Supports & loads estimates Purchase steel (manufacturer) Safety valves sizing & drawings (vendor) Fabrication (manufacturer) Shipping Structure at Site
  • 221. HERVE BARON
  • 222. HERVE BARON What the Vendor supplied What Engineering designed
  • 223. HERVE BARON
  • 224. HERVE BARON Oil & Gas Engineering Training HSE Moment Intro, scope & objectives Project Engineering The Design Basis Discipline presentations Field engineering Schedule Quality
  • 225. HERVE BARON Engineering Quality Assurance: Engineering document register Document number Document title Document revision A 1 48104 Service building instrument. rooms cables routing B A 2 48102 Trouble shooting diagrams D A 3 48134 F&G system architecture drawing E A 4 50100 Instrument index B A 7 50003 Spec for instrument installation works and service C A 8 50960 Instrument Data sheets for temperature switches B A 9 50110 Requisition for pressure relief valves B M 1 62059 General plot plan B M 2 62020 Piping details standard C M 2 62070 Piping general arrangement Area 1 D M 4 60100 Special items list D
  • 226. HERVE BARON Engineering Quality Assurance: Document checking and distribution
  • 227. HERVE BARON Engineering Quality Assurance: Document revision
  • 228. HERVE BARON Engineering Integrity: Site Query from Construction
  • 229. HERVE BARON Interface Agreement Section/Step 1 Section/Step 2
  • 230. HERVE BARON Interface definition
  • 231. HERVE BARON I hope you enjoyed these few slides. They date from the first session of my Engineering training, back in 2009. The training has since then grown a lot. It today contains 3 to 4 times as much information. Have a look at the on-line PREVIEW of the current training: https://www.dropbox.com/s/6ea0gaxcj7xjqz2/Eng%20Mgt%20Training%202014.pdf Welcome to one of my LIVE training sessions to gain much much more! Venues and dates are on my blog: http://www.toblog.fr/en/baron.html