3D Model Energy and Thermal Modelling for buildings
Energy assessment Thermal comfort and overheating analysis BREEAM certification Predicted energy use at design stage Passive design analysis Net zero carbon study
3D Model Thermal Comfort Analysis
Using Computational Fluid Dynamics (CFD)
Designer Kostas_D
Building Energy Modelling, Mechanical, Renewable Energy Engineer
Areas of expertise • Building physics (natural ventilation & CFD application, daylighting, thermal comfort, heat transfer) • Energy assessments • Net Zero Carbon Studies • Energy Performance Certifications
AutoCAD Autodesk Revit BREEAM Building Design Building Physics CAD Design Computational Fluid Dynamics Cooling Loads Daylighting DesignBuilder EDSL TAS Energy Efficiency Engineering Energy Simulation Heat Pumps Heat Transfer Heating Loads & Calculation Hourly Services HVAC Design Services IES-VE Software Mechanical Drawing Services Mechanical Engineer Mechanical Engineering Microsoft Office Overheating Passive Solar Design PV SOL Software (PV*SOL) PV Solar Panel Drafting PVsyst Renewable Energy Simulation Solar Panel Drawing Plans Solar PV System Design Solar Thermal Sustainability Sustainable Building Design Thermal Comfort Thermal Modeling Thermal Modeling Simulations Trimble SketchUp (Google)
Designer Moniem
Mechanical Engineer | BIM specialist | Autodesk Certified Professional: Revit MEP | CFD Specialist
professional with Master of Science (M.Sc.), from Cairo University, focused in CFD Analysis of Thermal Comfort in Outdoor Spaces Using Passive Air Conditioning Techniques.
3D Design Services 3D Solid Modeling Air Conditioning ANSYS ANSYS CFX ANSYS Fluent ANSYS ICEM-CFD ANSYS SpaceClaim ANSYS Workbench AutoCAD AutoCAD Drafting & Design Autodesk Revit BIM Consulting BIM Coordination BIM Design Services BIM Model Auditing BIM Modeling Building Information Modeling CAD Design CFD Analysis CFD Modeling Services CFD Simulation Engineering Design & Drafting Engineering Design Fire Protection Fluid Dynamics Mechanical Engineer Mechanical Engineering MEP Revit MEP SolidWorks
Skill HVAC Design
and air conditioning or HVAC technology is used to ensure indoor environmental comfort. It aims to provide thermal comfort and acceptable, if not excellent, indoor air quality. As a sub-discipline of mechanical
Designer moussaabs
mechanical engineer
me to analyze and size these installations to optimize energy efficiency and ensure optimal thermal comfort. Stress Testing with SolidWorks: Leveraging my extensive experience with SolidWorks, I can conduct
2D & 3D Design 2D CAD Design Services 2D CAD Drafting Services 2D to 3D Conversion Services 2D to 3D Modeling 3D Design 3D Models 3D Real Estate Rendering Aerospace Engineering Air Conditioning ANSYS Automotive Design BOM CAD Design Computational Fluid Dynamics Design Engineering Services HVAC Design Services Machine Design MATLAB Mechanical CAD Design Mechanical Design Mechanical Design Services Mechanical Drafting Mechanical Drawing Services Mechanical Engineer Mechanical Engineering Oil & Gas Prototype Design Engineering Prototype Design Services PV Solar Panel Drafting Simulation SolidWorks SolidWorks Design Services SolidWorks Engineering Services Spacecraft
3D Model HVAC Simulation and Validation for Pharmaceutical Company
components, and airflow pathways. Simulation Execution: Run the HVAC simulation to analyze the thermal performance, air quality, and energy consumption of the system under different operating conditions
Skill Building Information Modeling
the project in great detail, helping to ensure that things such as light levels, circuitry and thermal comfort are all at the exact levels that they need to be. We can also look at LEED points, carbon footprints
Service HVAC Design Services
assess the proposed design with rational criteria for indoor air quality, thermal comfort, acoustical comfort, visual comfort, energy efficiency and HVAC system controls at every stage of the design process;
Skill Thermal Modeling Simulations
Thermal modeling simulations are used to show the heating, cooling, and hot water processes of any given building and is crucial to consider before one designs a system that will meet those needs. It is