View non-flash version
Geosource Inc., and to McClelland Engineers Inc., both of Houston. Recipients will be honored at the OTC Awards Luncheon on May 5 at 12:15 pm in the Astrohall Ball- room. Mr. Mayne will receive the OTC Award for Individuals for his contri- butions to the science of geophysical exploration. He invented the com- mon depth point (CDP) method used in nearly all offshore seismic and exploration work. The CDP is largely responsible for the noise re- duction that makes it possible to perform seismic work under contin- uous tow. No single technique has contributed more to the success of offshore seismic work and petro- leum exploration. The 1986 recipient of the OTC Distinguished Achievement Award for Companies, McClelland Engi- neers, has made distinct and unique contributions to marine geotechni- cal engineering for 38 years. The firm's development of engineering techniques for analysis and design of offshore structure foundations, and procedures and equipment for geotechnical data acquisition have benefited materially the safety and cost aspects of foundations for off- shore structures. Technical Program Monday • 9:00 a.m. to 12:00 noon Arctic Ice and Wind Forces • Room 118 OTC 5084 Ice-Floe Wave Drift Experiments V.W Harms, U. of California 5085 Motion of an Ice Mass Near a Large Offshore Structure M. Issacson. U. of British Columbia, and F.D. Stritto. Mobil R&D Corp 5086 Wave Driven Icebergs Impacting Against an Offshore Structure M. Salvalaggio. BP Alaska Exploration Inc., and M. Rojansky. Ben C. Gerwick Inc. 5087 Structural Integrity of Semi-Submersibles and Gravity Platforms to Bergy-Bit/lceberg Impact A.S.J. Swamidas and H. El-Tahan, Memorial U. of Newfoundland: M Arockiasamy. Arctec Newfoundland Ltd : and R. Abdelnour. Florida Atlantic U. 5088 Numerical Simulation of Wave Runup and Armor Stability N Kobayashi. U of Delaware, and I. Roy and A K Otta. U. of Delware 5089 Prediction of Uplift Wave Force on Large Caisson Structures Installed on Rubble Mound S. Fujii, Taisei Corp. Field Development • Room 114 OTC 5090 The North Sea: Where to Now? J. Haggarty and G Mathewson. Scottish Development Agency The Lessons From 7 Years of a First Generation North Sea Platform and Planning to its End-of-Field Life C.R Bond and P G Shaw. Britoil pic Deepwater Multiwell Production System Study J.S Lim. Vetco Gray, and G L Barker. ARCO Geisum Field Development R.L Tucker. Conoco Inc . and N C Roobaert Paragon Engineering Services Milne Point Production Facilities: A Design for a Marginal Arctic Oil Field M.D McGee. Conoco Inc.. and J.E Dysert. Fluor Engineers Inc Marginal Field Exploration and Production in the Arctic R E. Potter and M E Potter. Arctic & Offshore Technology Inc Random Directional Wave Forces on Template Offshore Platforms G. Rodenbusch. Shell Development Co. Measured Fluid Forces on an Accelerated/Decelerated Circular Cylinder A R Bird, consultant, and L.F Mockros. Northwestern U. Biplanar Linearization of Drag Forces With Application to Riser Analysis B J Leira and A Olufsen. SINTEF Non-Linear Random Wave Loading on Fixed Offshore Platforms N Spidsoe. SINTEF Dynamic Pressures Around a Vertical Cylinder in Waves S.K. Chakrabarti. A.R Libby. and D J Kompare CBI Industries Inc Geotechnical Site Investigations • Room 108 OTC 5103 Large Scale Penetration Test at a Deep Water Site T.I Tjelta and A.A Rannestad. Statoil Results of Recent Cone Penetrometer Testing in the Gulf of Mexico J.A. Focht Jr.. G.W Johnson, and C A. Rivette. McClelland Engineers Inc. Deep-Water Geologic and Soil Conditions and their Engineering Implications, Northern Gulf of Mexico K.J. Campbell and J.R Hooper, McClelland Engineers Inc.. and D.B Prior, Louisiana State U Generalized Soil Conditions Encountered in the Campos and Sergipe Basins, Offshore Brazil M.J. Morrison. McClelland Engineers Inc.. and C. Machado. Petrobras 5107 Geotechnical Potentials of Offshore Seismic Reflection Profiling in the Niger Delta S.U. Ejezie. U of Port Harcourt 5108 Seabed Strengthening by Deep Cement Mixing M Halebsky, Hale Enterprises, and S. Wetmore. Global Marine Development Inc. Fracture Control Room • Room 105 OTC 5109 Modifications to the CTOD Design Curve Approach M G. Dawes. The Welding Research Inst. (continued) PERFORMANCE SO IMPROVED, WE CHANGED THE NAME... Wave Forces • Room 109 OTC 5096 Forces on a Large Cylinder in Random 2-Dimensional Flows G. Rodenbusch and C Kallstrom. Shell Development Co An Empirical Model for Random Directional Wave Kinematics Near the Free Surface G. Rodenbusch and G Z. Forristall. Shell Development Co. April, 1986 41 1986, Cummins Engine Company, Inc. Circle 120 on Reader Service Card CUMMINS VTA28-M Taking the proven, reliable 5 VJ' x 6" bore and stroke V-12 design, and using the latest diesel technology, Cummins delivers a new, more powerful engine matched to the tough requirements of today's marine industry. Rated 675 continuous bhp at 1800 rpm, the powerful yet compact VTA28-M is an im- provement of 55 bhp with less than one gallon-per-hour in- crease in fuel consumption. More powerful with no sacrifice in fuel consumption. That, coupled with Cummins full package support of on-the-spot technical assistance, installa- tion recommendations, com- puterized propeller selection, and instrumented sea trials brings a new, clear choice in marine propulsion to owners and captains around the world. And you can always depend on the Cummins Distributor and Marine Dealer network, one of the most extensive in the indus- try, to provide expert service, complete service facilities, and repair part inventories. Find out more about Cummins VTA28-M from your nearest Cummins Distributor or write: VTA28-M, Cummins Engine Company, Inc., Box 3005, MC 60403, Columbus, IN 47202-3005.
