Industrial Equipment

Building Stronger, Smarter, and More Reliable Machines

We assist machinery and process equipment manufacturers in developing durable, efficient, and safe designs. Using structural, thermal, and fluid simulations, we help enhance product performance and reduce design cycles.

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Core Ansys Solutions for Industrial Equipments

Structural & Durability Analysis

Industrial equipment often operates under extreme mechanical stress, requiring robust and reliable designs. Ansys provides simulation tools that help ensure your equipment can handle harsh conditions:

Stress & Fatigue Prediction: Simulate mechanical loads and vibrations to optimize strength and predict fatigue failure.

Material Selection: Evaluate and test materials to enhance durability and longevity under operational stress.

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With Ansys, you can improve the resilience of industrial systems, reducing the likelihood of failures and minimizing downtime

Thermal Management

Thermal optimization is crucial for equipment performance and longevity, especially in industrial environments:

Thermal Analysis: Model heat flow to optimize cooling systems and prevent overheating.

Heat Transfer Optimization: Maximize efficiency of cooling systems for motors, generators, and other industrial machinery.

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Ansys ensures that your equipment runs within optimal temperature ranges, improving its reliability and efficiency.

Multiphysics Simulation for System Integration

Industrial equipment often involves multi-disciplinary systems. Ansys allows you to model the interactions between different physics to ensure optimal system performance:

Mechanical & Thermal Integration: Simulate how thermal expansion and structural deformation interact to improve system reliability.

Fluid-Structure Interaction (FSI): Model how fluids (e.g., air, water, oil) interact with mechanical components like pumps and turbines.

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By simulating these multi-physics interactions, Ansys ensures system-level optimization and early identification of design flaws.

Vibration & Noise Analysis

Vibration and noise control is vital in maintaining the operational efficiency and safety of industrial machinery:

Vibration Simulation: Predict vibrations that may affect performance and structural integrity.

Noise Reduction: Use sound-frequency analysis to design systems that minimize unwanted noise.

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Ansys helps you design quieter, more stable equipment that delivers reliable performance with reduced noise pollution.

Sustainability in Industrial Design

Sustainability is a growing priority across industries. Ansys provides tools to help companies design eco-friendly and energy-efficient equipment:

Energy Efficiency: Maximize operational efficiency and reduce energy consumption in equipment like motors, compressors, and turbines.

Recyclable Materials: Use simulation tools to select and optimize materials that reduce environmental impact and improve recyclability.

Lifecycle Analysis: Evaluate the environmental impact of products from design to end-of-life to meet sustainability goals.

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Ansys ensures that your designs not only meet performance standards but also align with sustainability targets.

AI-Driven Predictive Maintenance

Predictive maintenance powered by AI can help industrial companies extend equipment lifespan and reduce maintenance costs:

Condition Monitoring: Real-time data from sensors helps monitor equipment health and predict potential failures.

AI-Based Maintenance: Machine learning algorithms analyze historical data to optimize maintenance schedules and prevent unplanned downtime.

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Ansys integrates AI-driven predictive maintenance into your workflow, ensuring continuous equipment operation and minimizing service disruptions.

Design Consultancy Capabilities

CAD Modeling & Optimization

We assist in creating accurate and manufacturable CAD models that meet both performance and cost constraints:

Design for Manufacturability: Streamline designs to simplify manufacturing and reduce costs.

Performance Optimization: Enhance the mechanical, thermal, and fluid properties of your designs to meet the toughest operational conditions.

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Prototyping & Virtual Testing

Ansys’s simulation tools help accelerate the prototyping process by allowing you to test virtually before physical prototypes are built:

Virtual Stress & Thermal Testing: Identify potential failure points and optimize your design before it reaches the production floor.

Optimized Prototyping: Reduce the number of iterations by using digital simulations to refine your designs.

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System-Level Design & Optimization

Our multiphysics approach ensures that complex systems work together harmoniously:

Multidisciplinary Integration: Combine mechanical, thermal, and fluid dynamics into a cohesive design to optimize system performance.

Generative Design: Use advanced algorithms to explore design alternatives and identify the best configuration for efficiency and performance.

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Cross-Domain Expertise

We integrate design expertise across multiple engineering domains to provide a holistic solution for industrial equipment:

Mechanical Engineering: Structural integrity and material selection.

Thermal & Fluid Engineering: Efficient heat management and fluid dynamics.

Electronics & AI: Integration of intelligent systems and advanced diagnostics.

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Our cross-domain expertise ensures that every aspect of the design process is covered, leading to more robust and reliable industrial equipment.

Area of Service

Ansys solutions cater to various industrial equipment sectors that face high-performance demands, including:

Manufacturing Equipment

For machines and tools that operate in manufacturing environments, Ansys helps ensure the equipment is optimized for durability and efficiency, from CNC machines to robotic arms.

Pumps & Compressors

In industries like oil and gas, Ansys provides simulation tools to optimize the design of pumps and compressors for maximum performance, reliability, and energy efficiency.

Turbines & Generators

In power generation, Ansys ensures turbines and generators can withstand extreme thermal and mechanical loads. We help companies design efficient, long-lasting turbines and generators that can handle high-pressure environments.

Heavy Machinery & Construction Equipment

For industries that rely on heavy machinery, such as mining and construction, Ansys helps design equipment capable of operating in harsh environments, ensuring both performance and safety.

HVAC Systems

Ansys supports the design of energy-efficient heating, ventilation, and air conditioning (HVAC) systems, optimizing heat transfer and airflow to improve comfort and energy consumption.

Our Valued Clients & Collaborators

Engineering teams and organizations that have partnered with SolidTrust for software solutions and advanced simulation support.

Zenviro TechFabheads Automation Pvt LtdLNV Technology Private LtdFLSmidth Private LtdKOSO FLUID CONTROLS PVT LTDSTEER ENGINEERING PVT LTDELGI EQUIPMENTSJANATICS INDIA PVT LTDPROPELROOTS INDUSTRIES INDIA PVT LTDPricol LimitedLennox IndiaCraftsman AutomationDover IndiaL&T Engineering ServicesZenviro TechFabheads Automation Pvt LtdLNV Technology Private LtdFLSmidth Private LtdKOSO FLUID CONTROLS PVT LTDSTEER ENGINEERING PVT LTDELGI EQUIPMENTSJANATICS INDIA PVT LTDPROPELROOTS INDUSTRIES INDIA PVT LTDPricol LimitedLennox IndiaCraftsman AutomationDover IndiaL&T Engineering Services

Relevant FAQs 

Can I evaluate stress and deformation in heavy machinery frames? +

Yes, Ansys Mechanical accurately predicts static, dynamic, and fatigue stresses under complex load conditions.

Can Ansys simulate fluid flow through pumps, compressors, and valves? +

Yes, Fluent models internal flow, pressure drop, cavitation, and efficiency across rotating and stationary parts.

Can rotating equipment be analyzed for vibration and imbalance? +

Yes, modal and harmonic response analyses identify critical speeds and dynamic stability issues.

Can heat exchangers and cooling systems be optimized using Ansys? +

Yes, CHT and CFD analyses evaluate temperature uniformity, fin efficiency, and flow distribution.

Can contact and wear in gears or bearings be modeled? +

Yes, Ansys Mechanical simulates contact stress, surface wear, and lubrication behavior accurately.

Can Ansys handle nonlinear materials used in industrial components? +

Yes, it supports elastoplasticity, creep, and hyperelastic modeling for realistic material response.

Can Ansys predict acoustic performance and noise generation in machines? +

Yes, harmonic acoustic simulations analyze vibration-induced noise and sound propagation.

Can Ansys evaluate fatigue life of welds and joints in heavy equipment? +

Yes, fatigue analysis tools assess durability of welded, bolted, and bonded connections.

Can coupled fluid–structure effects be analyzed for equipment safety? +

Yes, FSI simulations capture pressure–deflection interactions in vessels, valves, and piping.

Can Ansys optimize equipment performance for weight and strength? +

Yes, topology and parametric optimization tools minimize mass while maintaining structural integrity.

Build smarter, stronger, and safer machines.

Enhance performance, reduce downtime, and extend product life with trusted simulation-driven design services.

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