Energy & Power

Enabling Efficient and Sustainable Energy Systems

We support the global energy sector with tools to improve efficiency, reliability, and sustainability. From turbines and heat exchangers to renewable systems, our simulations help design optimized and resilient energy solutions.

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Core Ansys Solutions for Energy & Power Industry

As the global energy landscape shifts toward cleaner, more efficient solutions, Ansys simulation technology offers powerful tools to optimize performance and reduce the environmental impact of energy production systems. Whether you're designing wind turbines, optimizing combustion processes, or integrating renewable energy sources, Ansys provides the most advanced simulation solutions to help you lead in this transformative era.

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Renewable Energy & Wind Turbine Optimization

The shift towards renewable energy sources requires precise engineering to optimize the performance and efficiency of wind turbines, solar power systems, and other clean energy solutions. Ansys helps energy companies design turbines that can withstand harsh environments while maximizing energy capture.

Ansys wind turbine simulation capabilities allow engineers to:

Simulate aerodynamics to optimize blade design for maximum power generation.

Analyze the structural integrity of turbines under high wind loads, including fatigue and vibration analysis.

Model the thermal and mechanical performance of generator systems and bearings to ensure optimal reliability and performance.

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Energy Storage & Battery Management

As energy storage solutions become integral to renewable energy systems, ensuring the reliability and efficiency of batteries is more critical than ever. Ansys provides simulation tools to optimize battery design, improve thermal management, and extend battery life.

Ansys helps you:

Model battery behavior under varying load conditions and temperatures to optimize capacity and lifespan.

Simulate thermal management systems in battery storage systems to prevent overheating and improve performance.

Design and validate battery packaging for safety and efficiency.

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Combustion & Power Generation

In conventional and hybrid power plants, optimizing combustion processes is critical to improving fuel efficiency and reducing emissions. Ansys provides simulation tools to model combustion, fluid dynamics, and thermal processes to design more efficient, cleaner power generation systems.

Combustion Simulation: Model and optimize combustion processes in gas turbines, boilers, and internal combustion engines to reduce emissions and increase efficiency.

Fluid Dynamics: Simulate air and fuel flow to optimize combustion and heat transfer in power plants.

Thermal Management: Design and optimize cooling systems to ensure stable and efficient operation of power generation equipment.

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Grid Optimization & Electrical Distribution

Ensuring a stable, reliable, and efficient power grid is essential for the modern energy landscape. Ansys offers powerful solutions to optimize grid design, improve electrical distribution systems, and simulate complex electrical networks.

With Ansys, energy companies can:

Design and optimize electrical transmission and distribution systems for improved load management, grid reliability, and reduced losses.

Model fault detection, protection systems, and power flow analysis to ensure grid stability and performance.

Simulate the integration of renewable energy sources into existing grids, ensuring smooth transitions and reliable power distribution.

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Sustainability in Power Generation

Sustainability is the cornerstone of modern energy systems. With increasing pressure to meet global carbon reduction goals, Ansys provides simulation tools that enable energy producers to design clean, sustainable energy solutions while reducing their environmental footprint.

Ansys sustainability solutions focus on:

Carbon Capture and Storage (CCS): Design and optimize CCS systems to reduce CO2 emissions from power plants and industrial processes.

Energy-Efficient Systems: Optimize power plants and manufacturing processes to maximize energy output and reduce waste.

Circular Economy: Evaluate and implement the use of sustainable materials in the manufacturing of power generation equipment to reduce waste and improve recyclability.

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Artificial Intelligence (AI) & Digital Twins for Energy Systems

The integration of AI and digital twins in the energy sector enables predictive maintenance, real-time performance monitoring, and optimization of complex energy systems. Ansys leverages AI to accelerate the development of smart energy solutions.

Digital Twin Technology: Create real-time digital replicas of physical energy systems, such as turbines, power grids, and battery storage systems, to predict performance and optimize maintenance schedules.

AI-Driven Optimization: Use AI to continuously monitor and optimize energy generation and distribution in real-time, improving system reliability and efficiency.

Predictive Analytics: Leverage AI to predict failures and optimize operations, minimizing downtime and maximizing energy production.

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Design Consultancy Capabilities

Thermal & Structural Optimization for Power Generation

Ansys helps energy companies optimize power generation systems, such as turbines and boilers, by simulating extreme thermal and mechanical loads. Our solutions ensure:

Thermal Analysis: Optimize heat transfer and cooling for improved system efficiency.

Structural Analysis: Ensure structural integrity of critical components like turbine blades under high-stress conditions.

This approach enhances reliability, extends equipment lifespan, and reduces maintenance costs.

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Sustainable Design for Energy Systems

Ansys supports the creation of energy-efficient, sustainable systems across renewable energy sectors:

Solar Power: Maximize solar panel efficiency and energy capture.

Wind Turbines: Design durable, high-performance turbines that minimize environmental impact.

Sustainable Materials: Optimize materials for recyclability and reduced environmental footprint.

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Ansys helps meet sustainability targets while improving system performance and lowering operational costs.

AI-Driven Predictive Maintenance for Energy Systems

Using AI, Ansys enables energy companies to optimize maintenance schedules and extend the lifespan of critical assets:

Condition Monitoring: Real-time sensor data analysis to predict potential failures.

AI-Based Predictive Maintenance: Predict failures and optimize maintenance schedules to minimize downtime and boost system reliability.

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By integrating AI into maintenance workflows, Ansys helps improve the efficiency and reliability of energy systems.

Area of Service 

Renewable Energy Generation (Wind, Solar, Hydropower)

Optimize the performance of renewable energy systems by improving the design and efficiency of turbines, solar panels, and hydropower plants. Ansys helps reduce the cost of energy generation while increasing the efficiency and longevity of renewable assets.

Nuclear Power

Simulate and optimize nuclear power plant systems, from reactor design to cooling and waste management, to ensure safety, efficiency, and sustainability.

Fossil Fuels & Hybrid Power Plants

Reduce emissions and improve efficiency in traditional power generation systems, such as natural gas and coal plants, while integrating renewable energy sources and sustainable technologies.

Energy Storage & Grid Solutions

Design and optimize battery storage systems, grid stability, and energy distribution systems to ensure reliable, efficient, and sustainable energy transmission.

Oil & Gas Energy Systems

Optimize offshore and onshore oil and gas extraction systems with advanced structural, thermal, and flow analysis, ensuring operational safety and efficiency.

Our Valued Clients & Collaborators

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

Zenviro TechGamesaEgger Pumps Pvt ltdSoudharshini Valve Pvt. LtdVAATA Smart LtdBergen Pipe Supports Pvt LtdNational Institute of Ocean TechnologyABBKOSO FLUID CONTROLS PVT LTDSTEER ENGINEERING PVT LTDELGI EQUIPMENTSLennox IndiaZenviro TechGamesaEgger Pumps Pvt ltdSoudharshini Valve Pvt. LtdVAATA Smart LtdBergen Pipe Supports Pvt LtdNational Institute of Ocean TechnologyABBKOSO FLUID CONTROLS PVT LTDSTEER ENGINEERING PVT LTDELGI EQUIPMENTSLennox India

Relevant FAQs 

Does Ansys Mechanical simulate blade vibration and structural integrity? +

Yes, it predicts modal frequencies, stress concentrations, and fatigue life for turbine blades.

Can Ansys evaluate combustion efficiency in power plant burners? +

Yes, Fluent supports detailed combustion, radiation, and emissions modeling for optimized fuel performance.

Can heat exchanger performance be analyzed under varying loads? +

Yes, conjugate heat transfer (CHT) simulations assess temperature distribution and pressure loss accurately.

Does Ansys support multiphase flow analysis for boilers and condensers? +

Yes, Fluent handles boiling, condensation, and phase-change processes with precise flow visualization.

Can electromagnetic losses in generators or motors be calculated? +

Yes, Ansys Maxwell evaluates core losses, torque ripple, and magnetic saturation in electrical machines.

Can thermal stresses in pressure vessels or pipelines be assessed? +

Yes, Ansys Mechanical performs coupled thermal–structural analysis for safe high-pressure operation.

Can I study wind turbine aerodynamics and blade design? +

Yes, Fluent simulates aerodynamic loading, wake behavior, and energy capture efficiency.

Can Ansys analyze cooling performance in nuclear or solar energy systems? +

Yes, it models heat removal, fluid behavior, and material response in nuclear, CSP, and PV systems.

Can fluid-induced vibration in piping systems be predicted? +

Yes, coupled CFD–FEA simulations identify resonance, fatigue risks, and noise in flow-carrying pipes.

Power the future with innovation and efficiency.

Use Ansys multiphysics simulation to improve turbine performance, cooling efficiency, and system reliability.

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