ABDUL SAMADHU BEER MOHAMED

• Served as the primary design focal point for project valves, interpreting customer
datasheets, specifications, P&IDs, and project documentation to define accurate
valve configuration, materials, trims, and design requirements.
• Developed precise BOMs, performed design calculations, and ensured strict
compliance with API 6D, ASME B16.34, SAMSS, and internal engineering
standards across all design deliverables.
• FEA-based design validation and optimization for high-pressure and
severe-service valves, improving stress distribution, structural integrity, and sealing
performance.
• Directed the full lifecycle of NMR-601GA drawings and NMR-602 revision
updates, ensuring complete traceability, rapid closure of customer comments, and
alignment with Aramco/SABIC requirements.
• Produced detailed part, assembly, and machining drawings after GA approval,
applying GD&T and tolerance principles to ensure manufacturability and
dimensional accuracy.
• Conducted and led cross-functional design review meetings with engineering,
manufacturing, QA/QC, and supply chain teams to resolve technical issues and
ensure design readiness for production.
• Managed the ECR/ECN process for all design-related changes, ensuring
controlled implementation, accurate documentation updates, and smooth
communication across stakeholders.
• Released final drawings, BOMs, and technical specifications to manufacturing and
procurement, supporting smooth production flow and reduced design-related
NCRs.
• Acted as the technical escalation point for Aramco, SABIC, and EPC client
queries, preparing engineering justification reports, deviation clarifications, and
compliance statements to support project execution.
◦ Designed Flare Combustion Packages (flare skid, flare stack, flare tip) based on
P&ID drawings, ensuring alignment with project requirements and API‑compliant
design parameters.
◦ Interpreted P&IDs, project specifications, and process data to define flare system
design inputs such as combustion capacity, radiation limits, structural loading, and
layout constraints.
◦ Led end‑to‑end AHU (Air Handling Unit) design validation for Daikin, ensuring
compliance with HVAC performance, safety, and manufacturability standards.
◦ Reviewed and validated 3D models, assemblies, and engineering drawings in
SolidWorks, performing tolerance checks, interference analysis, and design
feasibility assessments.
◦ Managed ECR/ECO workflows, BOM updates, and documentation control
through Agile PLM, ensuring accurate revision control and timely release of
validated designs.
◦ Collaborated with Daikins global engineering teams to clarify requirements, resolve
technical issues, and present validation findings during structured design review
meetings.
◦ Provided technical guidance and task direction to junior engineers, reviewing
deliverables and ensuring high‑quality outputs aligned with project timelines.
◦ Implemented design improvements and corrective actions to address recurring
issues, contributing to reduced validation cycle time and improved design quality.
◦ Executed full design ideation workflows including concept sketches, part and
surface modeling, assembly construction, grouping, and detailed design
development based on customer specifications.

• Generated Sales Order and Quotation Drawings in compliance with Engineering
Design Procedures, ensuring accurate interpretation of customer requirements and
project specifications.
• Supported Product Engineers in the design and development of metal-seated ball
valve components, contributing to improved reliability and performance.
• Prepared detailed design sketches and engineering drawings in accordance with
ASME standards, accurately applying GD&T symbols, tolerances, and dimensional
requirements.
• Developed casting and forging drawings during the preliminary design stage,
ensuring manufacturability and alignment with material and process constraints.
• Created Customer General Assembly (GA) Drawings using SolidWorks 2019 and
AutoCAD, ensuring clarity, accuracy, and compliance with internal and customer
standards.
• Prepared and maintained Engineering Bills of Materials (EBOM) in M2M ERP,
ensuring correct part structuring, revision control, and alignment with design
documentation.
• Conducted quality checks of design documents, including BOMs, GA drawings, and
component drawings, ensuring adherence to internal quality and ISO 9000
documentation standards.
• Released drawings and documents through PDM, maintaining proper document
control, standardization, and supporting design improvement initiatives.
• Coordinated with cross-functional teams (Marketing, Sourcing, Product
Engineering, Manufacturing, and Quality) throughout the valve development cycle
and contributed to improvement projects such as migration of drawings from Adept
to PDM.
◦ Identifying & optimize the design and process for new/current running parts to
reduce the rejection percentage and to improve the production rate/product quality.
◦ Developing and preparing process drawings, tooling drawings on CAD software.
◦ Generating & Updating bill of materials (BOM), Drawings specs., Material Specs.
First of inspection methods and control plan etc. for new products on MRP.
◦ On new concept, reviewing with Director-Manufacturing and other dept. heads to
freeze the design & process details of Machine.
◦ Design and Develop the Anti Vibration Mounts, Rubber Molded Components,
Spring Mounts, Spring Hanger, Rubber Hanger, and Rubber Expansion Joints for
Reducing Vibrations from the Assembling of Machine parts.
◦ Developing and preparing Assembly/Sub-assembly/process drawings on CAD
software.
◦ Generating project documents like design inputs/review, design/process feasibility,
design output/review, check list, prototype testing report/review and final
verification/validation report.
◦ Hand calculation for selection of Control Rods, Anti vibration Mounts, stretcher
plate etc. for a specified application.
◦ Efficiently created 3D model of various components such as casting and sheet
metal using surfacing, sheet metal and modelling environment with help of
specified drawing, assembly, drafting and detailing of components.

Design and develop a product like Anti Vibration Mount, Rubber Expansion Joints, Rubber moulded components, spring.
• Identifying & optimize the design and process for new/current running parts to reduce the rejection percentage and to improve the production rate/product quality.