Objective
To establish myself in the field of Ship design, stability & structural analysis.
Experience
Working as a Naval Architect in a warship design center of a leading engineering firm for last 1 year. I am associated with warship design centre in following tasks:
• Working in forward design group as project coordinator, also responsible for project planning & resource planning.
• Proposal Engineering of Fast Speed Boat (FSB):
As a business process, Technical & Commercial offer is submitted after receiving Request for Proposal (RFP) from customer. I was responsible for the preparation of Technical bid (Naval Architectural aspects) for Fast Speed Boat. In this, I have studied customer requirements for Stability, Seakeeping, Maneuvering, and Powering. Also studied model test reports for resistance & seakeeping performance at different sea states & verified the scantlings calculation with LRS & IRS.
• Feasibility study of Frigate Class Battle Ship (Proposed Hull Form parameters & optimization for resistance):
Internet survey of worldwide ships carried out for feasibility study of the user requirement, before concept design of ship. All the feasible hull form parameters are tested for the resistance & optimum set of parameter is chosen for concept design. The resistance check was carried out using empirical formulae & also verified by HALTROP 84 method using NAPA 2006 (Ship Design Program).
• Initial stability calculations (Intact & Damage) for Corvette Class Battle ship.
Intact & Damage stability calculations are performed for Corvette class battle ship at different loading conditions viz. lightship, full displacement (100% tank full), working (50% tank full) & arrival (10% tank full). All the calculations are verified against the classification society rules viz. (Naval Engineering Standard (NES) for Warships). Also performed compartment creation considering the extent of damage to the ship as per NES 109. Deterministic damage stability calculations are performed by damaging to the compartments which may cause great instability.
• Structural Analysis of Frigate Class Battle Ship:
Calculations for Design hogging & sagging bending moments for frigate class ship & synthesis of midship section & four critical sections (viz. aft cutout, section below RFGM & missile launcher, section at chain locker room, section at heavy machine room) for calculated section modulus. Static Linear & Nonlinear Analysis of deck below weapon launcher & also buckling analysis of Deck Supports.
• Conducting Technical Lectures on various topics.
• Coordinating HR activities within the department.
• Learned various leadership and decision making skills that were invaluable.
Education
B.E. (Prod Engg.) 1st Class with Distn 74.19% (Among University Toppers), SGGSCoE&T, Nanded in 2004.
Diploma (Prod Tech.) 1st Class 70.55% from MSBTE, Mumbai in 2001
Certification
·Completed Certificate course in ‘Naval Architecture & Ship Building’ conducted at OERC, Mumbai, Three (3) months duration course for L&T Engineers from January 2008 to March 2008.
·Completed In house CEP course in ‘Structural Dynamics’ conducted by IIT Mumbai, two (2) week duration course for DRDO Scientists in March 2006.
·Completed certificate course in ‘Aided Designs’, includes 2D, Isometric & 3D designs in 2001.
·Related course work:
Machine drawing Engineering Mechanics
Strength of Material Theory of Machines
Product design Finite Element Analysis
Naval Architecture Ship Construction Ocean Engineering
Skils
ANSYS Solid Works Solid Edge CATIA
MS Project NAPA 2006 NavCAD AutoCAD
RESEARCH FELLOW – MECHANICAL(Sept. 2005 – March 2007)
PJ-10 (BrahMos), R&DE (E), DRDO, PUNE
Programme PJ-10 deals with design and development of BrahMos Weapon System from shore based complex and from ship. BrahMos is a supersonic cruise missile being jointly developed by India and Russia. BrahMos, the supersonic missile, can be launched from multiple platforms (Land, Sea and Air). The platform system includes Mobile Autonomous Launcher (MAL) for land platform, Ship Launchers for naval platform.
Job Responsibilities:
·Design & Analysis of Thrust Bearing Structure for Inclined Ship Launcher.
·Design & Analysis of Canister Clamp Assembly for Inclined Ship Launcher.
·Design of Anti – Rotation scheme for Telescopic Cylinder of MAST for Mobile Autonomous Launcher (MAL).
·Concept design of Mechanism for Positive Locking of Missile Containers on MAL.
·Structural and Contact Stress Analysis of Roller Support.
· Design and Analysis of Supports for Replenishment Vehicle.
·Co-ordination between DRDO Scientists, Technical Officers & designers to execute design activity.
·Formulation of work contracts in details, define the scope of work to be executed.
·Sourcing and developing of various service provider and material supplying agencies.