Engineering Excellence Tailored for Critical Industries

Driving Innovation Through Advanced Mechanical Design & Simulation Solutions

At SIMUDUBLIN, we specialize in high-performance mechanical design, structural analysis, and engineering software solutions for mission-critical sectors such as energy, automotive, construction, and process industries. Since 2026, we have been committed to delivering safe, efficient, and standards-compliant engineering services—backed by deep expertise in CFD, FEA, and international codes like ASME, EN 13445, and Eurocode.

Let’s Build the Future of Engineering—Together.

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Mechanical Design & Analysis

Mechanical design and analysis form the foundation of modern engineering. From concept to production, every successful product is born from a meticulous process that balances innovation, functionality, and manufacturability. This article explores how mechanical design and analysis – through tools like 3D CAD, FEA, and CFD – play a critical role in solving engineering challenges across industries.

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CFD in Modern Engineering

The role of CFD in engineering cannot be overstated. It enables engineers to model complex systems, identify inefficiencies, and design optimized components without needing to rely solely on physical prototypes. From improving aerodynamic efficiency in vehicles to enhancing HVAC system performance in buildings, CFD is a critical tool in the digital transformation of engineering.

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External Flow Analyses: Buildings and Vehicles

CFD external flow analyses are vital for evaluating how air or fluids interact with solid surfaces. In architecture, building aerodynamic analyses help calculate façade wind loads and ensure structural stability. In the automotive and aerospace sectors, it’s used to optimize vehicle shapes for reduced drag and better fuel efficiency.

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About SIMUDUBLIN

Engineering Innovation & Precision Since 2026

SIMUDUBLIN has been delivering cutting-edge engineering solutions since 2026. Based in Dublin, we specialize in mechanical design, advanced engineering analysis, and the distribution of engineering software—providing tailored project support and consultancy services across multiple industries.

With proven expertise in sectors such as aerospace, automotive, construction, white goods, and turbomachinery, we deliver high-value solutions rooted in deep knowledge of structural mechanics and computational fluid dynamics (CFD).

Our team also serves the energy and process industries, providing robust engineering services for critical systems including gas ducts, boilers, and pressure vessels. All our designs and simulations are executed in full compliance with internationally recognized standards such as ASME, EN 13445, and Eurocode—ensuring maximum safety, efficiency, and regulatory adherence, especially within power generation, petrochemical, and heavy industrial domains.

At SIMUDUBLIN, we don’t just engineer solutions—we shape the future of engineering.
Let’s engineer tomorrow, together.

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Gas Treatment, Heat Recovery and Ducting System Design

Project Title:
Gas Treatment, Heat Recovery and Ducting System Design

Description:
A comprehensive engineering study was carried out for an industrial facility operating under high temperatures, including gas ducts, filtration units, heat exchangers, and waste heat recovery systems.

Technical Approach:
All system components were analyzed using Finite Element Analysis (FEA) in full compliance with Eurocode standards. Structural behavior under thermal expansion, vibration, and internal pressure was thoroughly evaluated—especially for duct transitions and connection points.

Our Contribution:

Thermomechanical analysis and structural optimization
Equipment integration and safety verification
Engineering design focused on performance and durability

Project – Wind Comfort Map for Bodrum Akyarlar

Project Summary:
This project evaluated pedestrian wind comfort as part of an outdoor space development in Bodrum Akyarlar.

Our Approach:
A detailed wind comfort map was created using CFD simulations, incorporating local topography and built environment. Seasonal wind conditions were modeled.

Outcomes:

Identification of zones with reduced comfort
Engineering data to support planning decisions
Evaluation based on international comfort standards

Project – M/V ORCHID A&B Deck Frame Modification

Project Scope:
Structural modification and reinforcement of A and B Deck WEB Frames on board the M/V ORCHID to ensure full compliance with the Carriage of Livestock by Sea Regulations 2016 (Irish Maritime Transport Regulations).

Approach:
A detailed structural assessment and finite element analysis (FEA) were carried out to evaluate the load-bearing capacity of the existing frame structure under livestock-specific dynamic loads. Based on findings, localized reinforcements and geometry optimizations were designed to meet regulatory strength and safety criteria.

Deliverables:

Engineering calculations and FEA simulations
Detailed modification drawings
Compliance documentation as per Irish regulations

Our Last Projects

Project – Structural Analysis of LARS Platform on Sancar Vessel

Project Summary:
This report presents the findings regarding the stress and deformation effects induced by the applied weights on the LARS (Launch and Recovery System) platform installed on the Sancar vessel.

Technical Approach:
The Finite Element Method (FEA) was employed for numerical simulations, considering the weight distribution and platform geometry. The structural integrity was evaluated in accordance with relevant safety and performance criteria.

Outcomes:

Stress and deformation contour results
Identification of critical zones
Structural safety assessment

Project – Wind Comfort Map for Bodrum Akyarlar

Project Summary:
This report presents the findings of a Finite Element Analysis (FEA) and fatigue assessment conducted for the rotor region of the ISKEN Preheater project.

Technical Approach:
The rotor area was modeled under defined loading conditions to identify high-stress zones and potential fatigue initiation points. Material properties and lifecycle data were used to evaluate fatigue safety.

Outcomes:

Stress distribution and fatigue life maps
Identification of critical zones
Design optimization and safety recommendations

Hydrodynamic Performance Evaluation of a Ship Model with Hull Extension

The ship model was modified by extending its length to enhance its hydrodynamic performance. The main objective was to compare the resistance characteristics of the vessel in the loaded condition before the modification (original) and after the modification (extended). The analysis focused on quantifying the resistance differences between both configurations, enabling an estimation of the power required to maintain a specified service speed. Furthermore, the results were used to assess the impact of the modification on fuel consumption, providing insights into potential improvements in operational efficiency and energy savings.

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