M
Computer Aided Design Specialist
Accepting applicationsMedikabazaar · Gurugram, Haryana, India
Full-Time Associate AiSocaiarmate
Posted
4d ago
Category
Test
Experience
Associate
Country
India
Job Description: MGPS & MOT Designer
Role Objective
To design integrated surgical environments. This includes the infrastructure for medical gas distribution and the structural/environmental components of Modular Operating Theatres, ensuring a sterile, technologically advanced, and safe workspace for surgical teams. The designer ensures that the system provides a continuous, high-quality supply of gases to clinical areas while mitigating risks of cross-connection or pressure failure.
Key Responsibilities
System Layout & Sizing: Calculate flow rates and diversity factors to determine pipe sizes, ensuring adequate pressure at the furthest terminal units.
Compliance & Standards: Ensure all designs strictly follow HTM 02-01, NFPA 99, ISO 7396 or relevant local building codes.
Engineering Design: Develop comprehensive MGPS schematics including source equipment (Manifolds, Compressors, Vacuum Plants) and distribution networks.
Equipment Specification: Select and specify plant equipment, including medical air compressors, vacuum pumps, manifold systems, and Emergency Reserve Manifold (ERM) locations.
Safety Features: Design the placement of Area Valve Service Units (AVSUs), Line Pressure Alarms, and Master Alarms to ensure staff can isolate and monitor the system.
Technical Drawings: Produce detailed 2D/3D BIM models (Revit/AutoCAD) showing pipe routing, plant room layouts, and terminal unit locations.
Coordination: Collaborate with architects, structural engineers and MEP teams to avoid clashes with HVAC, electrical, and plumbing services.
Documentation: Prepare the Bill of Quantities (BOQ), Quotation, Technical Specifications and Schematic Diagrams (Isometrics).
Validation: Prepare testing and commissioning localized "System Performance" sheets to be used by the Authorized Person (MGPS) during final handover.
Modular Wall & Ceiling Systems: Specify anti-bacterial/anti-static wall panels (PPGI, HPL, Corian or Powder Coated) and hermetically sealed doors.
Laminar Airflow (LAF) Integration: Coordinate with HVAC teams to ensure the MGPS pendants and surgical lights do not disrupt the sterile air curtain over the patient.
Surgical Pendants: Design the layout and loading for ceiling-mounted pendants (Anaesthesia and Surgical arms), ensuring they carry the correct gas outlets and electrical sockets.
Scrub Stations & Surgeons' Panels: Design the integration of digital control panels that monitor humidity, temperature, and gas pressures within the OR.
Requirements & Qualifications
Education: B.E. / B. Tech in Mechanical or Biomedical Engineering.
Certification: Specialized MGPS training (e.g., Authorized Person (MGPS) or Competent Person (MGPS) certification) is often mandatory.
Experience: 5+ years specifically in Hospital Infrastructure Design.
Technical Standards:
MGPS: HTM 02-01, NFPA 99 or ISO 7396.
MOT: ISO 14644 (Cleanrooms), HTM 03-01 (Specialized Ventilation).
Technical Knowledge: Deep understanding of gas properties (oxidizing vs. inert). Knowledge of brazing standards and degreasing requirements for medical-grade copper.
Software: Mastery of Revit MEP (LOD 300/400) and AutoCAD.
Risk Assessment: Ability to identify "Single Points of Failure" in a distribution system.
Material Science: Knowledge of BCBM (British Compressed Air Society) standards for medical air and specific copper grade requirements (EN 13348).
Clash Detection: Use BIM (Revit) to ensure gas pipes, HVAC ducts, and heavy structural supports for surgical lights don't collide.
Sterility Compliance: Ensure all materials meet NABH/JCI standards for infection control.
Communication: Clearly explaining technical constraints to non-engineering clinical stakeholders.
Show more Show less
Role Objective
To design integrated surgical environments. This includes the infrastructure for medical gas distribution and the structural/environmental components of Modular Operating Theatres, ensuring a sterile, technologically advanced, and safe workspace for surgical teams. The designer ensures that the system provides a continuous, high-quality supply of gases to clinical areas while mitigating risks of cross-connection or pressure failure.
Key Responsibilities
System Layout & Sizing: Calculate flow rates and diversity factors to determine pipe sizes, ensuring adequate pressure at the furthest terminal units.
Compliance & Standards: Ensure all designs strictly follow HTM 02-01, NFPA 99, ISO 7396 or relevant local building codes.
Engineering Design: Develop comprehensive MGPS schematics including source equipment (Manifolds, Compressors, Vacuum Plants) and distribution networks.
Equipment Specification: Select and specify plant equipment, including medical air compressors, vacuum pumps, manifold systems, and Emergency Reserve Manifold (ERM) locations.
Safety Features: Design the placement of Area Valve Service Units (AVSUs), Line Pressure Alarms, and Master Alarms to ensure staff can isolate and monitor the system.
Technical Drawings: Produce detailed 2D/3D BIM models (Revit/AutoCAD) showing pipe routing, plant room layouts, and terminal unit locations.
Coordination: Collaborate with architects, structural engineers and MEP teams to avoid clashes with HVAC, electrical, and plumbing services.
Documentation: Prepare the Bill of Quantities (BOQ), Quotation, Technical Specifications and Schematic Diagrams (Isometrics).
Validation: Prepare testing and commissioning localized "System Performance" sheets to be used by the Authorized Person (MGPS) during final handover.
Modular Wall & Ceiling Systems: Specify anti-bacterial/anti-static wall panels (PPGI, HPL, Corian or Powder Coated) and hermetically sealed doors.
Laminar Airflow (LAF) Integration: Coordinate with HVAC teams to ensure the MGPS pendants and surgical lights do not disrupt the sterile air curtain over the patient.
Surgical Pendants: Design the layout and loading for ceiling-mounted pendants (Anaesthesia and Surgical arms), ensuring they carry the correct gas outlets and electrical sockets.
Scrub Stations & Surgeons' Panels: Design the integration of digital control panels that monitor humidity, temperature, and gas pressures within the OR.
Requirements & Qualifications
Education: B.E. / B. Tech in Mechanical or Biomedical Engineering.
Certification: Specialized MGPS training (e.g., Authorized Person (MGPS) or Competent Person (MGPS) certification) is often mandatory.
Experience: 5+ years specifically in Hospital Infrastructure Design.
Technical Standards:
MGPS: HTM 02-01, NFPA 99 or ISO 7396.
MOT: ISO 14644 (Cleanrooms), HTM 03-01 (Specialized Ventilation).
Technical Knowledge: Deep understanding of gas properties (oxidizing vs. inert). Knowledge of brazing standards and degreasing requirements for medical-grade copper.
Software: Mastery of Revit MEP (LOD 300/400) and AutoCAD.
Risk Assessment: Ability to identify "Single Points of Failure" in a distribution system.
Material Science: Knowledge of BCBM (British Compressed Air Society) standards for medical air and specific copper grade requirements (EN 13348).
Clash Detection: Use BIM (Revit) to ensure gas pipes, HVAC ducts, and heavy structural supports for surgical lights don't collide.
Sterility Compliance: Ensure all materials meet NABH/JCI standards for infection control.
Communication: Clearly explaining technical constraints to non-engineering clinical stakeholders.
Show more Show less