SATYA CHANDU GANISETTY [email protected] www.linkedin.com/in/sganisetty   Phone: 940-613-3275   Optimization Computational Fluid Dynamics Failure Evaluation Riser/Pipeline Design   Product Development Flow Assurance Education: Master Of Science in Mechanical Engineering Cullen College Of Engineering, University Of Houston. GPA -3.34 Bachelor Of Technology in Mechanical Engineering GITAM University, India. GPA – 3.4 Experience: Design Engineer – Cauldron Oil tools      Jun 2014 – Aug 2014 Aug 2013 – Present Laboratory Research - Modelling and Simulations in PTC Creo elements (Pro E). Assisted faculty with classroom instruction, exams, grading, record keeping, and other miscellaneous projects. Courses – laboratory and lecture sessions of Dynamics of Mechanisms, Strength Of Materials, Automated Manufacturing Systems. Intern – BHARATH HEAVY ELECTRICALS LIMITED    Jun 2008 – Apr 2012 Designed and Shoptested friction reduction tools, mud motors and fishing tools (Patented). Flow and Stress analysis in Solidworks and FLUENT. Optimization of designed tool using MATLAB. Worked with engineering team to create designs from written or verbal input. Teaching Assistant at University Of Houston   Jan 2013 – Dec 2014 Apr 2010 – May 2010 Studied the manufacturing procedures of steam turbines. Detailed report on working of pneumatic governors used in fuel injection. Solutions for vibrations caused by irregular weight distribution in rotating bodies. Technical Skills: Modelling Software: Engineering Simulations: Office Automation tools: Web Programming: Database Management: AutoCAD, Creo Parametric (Pro-E), CATIA, Solidworks MATLAB, ANSYS Structutal, FLUENT, Deepriser, Pipesim, CNC programming. Microsoft Office, Open Office HTML, CSS SQL Academic Projects: Flow around an airfoil at varying angles of attack: Hysteresis in flow past NACA 0012 Airfoil. Optimal structure of gas transmission trunklines: Design of a straight pipeline system that minimizes the capital costs in laying a Pipeline. Optimization of mechanical systems containing fuzzy logic:   Optimization of profile followed by follower bar in a four bar mechanism. Optimizing the requirement of raw materials in a production process, that maximizes output by estimating the feasible region satisfying about 70 Constraints. Flow assurance academic project:   Designed piping and well routing system for a production, water injection and gas lift system. Optimized the flowline and riser sizes and determining the optimum location of the top facility/FPSO. Pipeline design involving FEED   Designed a subsea tieback system that joins the source at a depth of 7200ft below the sealevel and the host. Calculated wall thickness, total pipeline weight, span length to minimize VIV effect, designed buckle arrestor, performed on-bottom stability analysis, installation load analysis, thermal expansion analysis and global buckling analysis. Riser design:    Estimated the riser sizing for the given operating pressure condition, water depth and internal fluid. Determined the required overpull and the required top tension and stroke length of the cylinders. Conducted stress analysis for the given current and wave loading using Flexcom. Flow analysis:   Simulated flow around a cylinder at various flow velocities (varying Reynolds numbers). Flow around multiple and rotating cylinders and study the changes in the flow and velocity contours. Minimum Quantity Lubrication (MQL):   Replaced Conventional Flood Lubrication with Mist lubrication to reduce the amount of lubricant used and wastage of lubricant. Increased the efficiency of lubricating/coolants used in a manufacturing process.