Industries
Agricultural Technology
Modeling and simulation are proven ways to address the high and unsustainable costs and time required for design and regulatory approval of increasingly complex healthcare solutions. This in silico approach maximizes patient safety while making healthcare more affordable.
Accelerating Innovation in Healthcare With In Silico Medicine
The agricultural technology industry is advancing farming practices by incorporating engineering solutions that boost productivity, sustainability, and efficiency. Key areas include the development of machinery, irrigation systems, and automation tools. Ansys provides a comprehensive suite of simulation tools to support these innovations, such as Ansys Mechanical for structural analysis of agricultural equipment, Ansys Fluent for fluid dynamics simulations in irrigation and spraying systems, Ansys Maxwell for electromagnetic simulations of motors, Ansys HFSS for designing sensors, Ansys Discovery for rapid prototyping of new agricultural tools, and Ansys Granta for managing materials data to ensure the selection of the best materials for durability and cost-efficiency. These solutions enable engineers to design, analyze, and optimize agricultural technologies for improved performance and sustainability.
- Ansys Mechanical
- Ansys Fluent
- Ansys Maxwell
- Ansys HFSS
- Ansys Discovery
- Ansys Granta
Farming Equipment and Machinery
ANSYS offers advanced simulation solutions tailored to the rugged demands of agricultural machinery. Its powerful tools support end-to-end development of farming systems, including structural, thermal, fluids, vibration, and fatigue analysis—ensuring performance, reliability, and efficiency in the field.
Structural analysis to evaluate the durability and reliability of farming machinery, ensuring performance under various loads and tough conditions.
Electromagnetic simulations for optimizing precision control systems and sensor integration, improving automation and accuracy.
Fluid dynamics simulations to enhance water flow efficiency in irrigation systems, reducing waste and improving performance.
Thermal analysis to optimize heat management, ensuring equipment operates at peak performance without overheating.
Component-Level Capabilities
ANSYS enables precise simulation of critical components in farming equipment—such as gearboxes, hydraulics, blades, and frames. With structural, thermal, fatigue, and fluid dynamics analysis, manufacturers can ensure durability, efficiency, and field performance of each part.
Seeders and Planters
- Simulate rigid body dynamics of seeds to optimize trajectory and placement, ensuring uniform distribution.
- Analyze wear of components to ensure long operation life under prolonged field use and varying soil conditions.
Sprayers
- Test fluid dynamics for efficient pesticide and fertilizer application, minimizing waste and maximizing coverage.
- Simulate erosion effects caused by high-velocity fluid flow or abrasive particles, ensuring the extended operational life of components.
Tractors
- Simulate load-bearing capacity for various farming tasks, ensuring stability and safety during field operations.
- Analyze vibration effects to reduce the risk of fatigue in tractor components and also enhance operator comfort.
Combine Harvesters
- Test structural strength for reliable operation during harvest, minimizing the risk of mechanical failure.
- Simulate rigid body dynamics to optimize mechanisms for efficiently separating and collecting the produce.
Soil Sensors
- Simulate electromagnetic performance and signal integrity to optimize sensor accuracy, ensuring precise data collection for soil health monitoring.
- Perform thermal analysis to ensure sensors maintain accuracy and reliability across temperature extremes in the field.
Tillage Equipment
- Simulate rigid body dynamics of tillage equipment interacting with soil, to ensure efficient soil preparation.
- Conduct erosion and wear analysis to assess component degradation from soil friction and particle impact, ensuring long-term durability.
Relevant Ansys Software
ANSYS provides a comprehensive suite of simulation tools including Ansys Mechanical, Fluent, LS-DYNA, Motion, and Twin Builder tailored to agricultural machinery design and analysis.
These solutions support every stage of equipment development—from structural durability and thermal management to fluid flow, impact simulation, and digital twin technologies.
Irrigation Systems and Pumps
ANSYS delivers advanced simulation solutions tailored to the engineering challenges of fluid handling and irrigation technology. Its comprehensive tools enable end-to-end simulation of systems, from pump mechanics to water flow. Capabilities include fluid dynamics, structural analysis, thermal performance, vibration, and cavitation prediction.
Fluid dynamics to optimize water flow through canals, pipes, and around impeller blades to ensure maximum effectiveness and efficiency.
Structural analysis to ensure the durability of irrigation equipment under various stresses.
Thermal analysis to prevent pump overheating, ensuring efficient operation.
Performance testing under various environmental conditions to simulate real-world usage.
Corrosion and erosion analysis to evaluate material degradation in pumps and pipes, ensuring long-term reliability.
Component-Level Capabilities
ANSYS enables detailed simulation of critical components such as impellers, valves, seals, and housings in irrigation systems and pumps. With tools for fluid dynamics, structural integrity, thermal effects, and fatigue analysis, engineers can optimize each part for performance, durability, and energy efficiency.
Sprinkler Systems
- Simulate fluid dynamics for efficient water distribution, ensuring uniform coverage and minimal waste.
- Perform corrosion analysis to evaluate component degradation from exposure to water, chemicals, and environmental factors, ensuring long-term durability.
Pumps
- Simulate fluid flow dynamics to optimize water flow around the blades of the impeller, for effective performance.
- Perform vibration and fatigue analysis to evaluate the durability of pump components under cyclic loading, ensuring long-term performance.
Filters
- Simulate fluid flow through filters and analyze pressure drop, to optimize the filters for best efficiency.
- Perform erosion analysis to evaluate the impact of particulate flow on filter surfaces to ensure durability.
Control Valves
- Simulate fluid dynamics for accurate water flow control, ensuring optimal irrigation.
- Analyze corrosion rates of valves for reliable long-term operation.
Relevant Ansys Software
ANSYS provides a robust suite of simulation tools including Fluent, Mechanical, CFX, and Twin Builder, tailored to the design and optimization of irrigation systems and pumps.
These solutions support accurate analysis of fluid flow, structural durability, thermal behavior, and system-level performance for efficient and reliable water management.
Agricultural Robotics
ANSYS delivers cutting-edge simulation solutions for the complex, multidisciplinary demands of agricultural robotics. Its integrated tools enable full-system simulation—from mechanical design and embedded electronics to thermal behavior and autonomous control. Capabilities include structural, motion, fluid, thermal, electromagnetic, and software-in-the-loop analysis.
Structural analysis to assess the durability and reliability of robotic components, ensuring they withstand mechanical stresses and environmental conditions.
Electromagnetic simulations to optimize sensor integration and control systems for precise robotic performance.
Fluid dynamics simulations to optimize pesticide and nutrient application, ensuring efficient distribution and minimizing waste.
Thermal analysis to ensure robotic systems perform efficiently and prevent overheating under varying environmental conditions.
Component-Level Capabilities
ANSYS supports detailed simulation of robotic components such as arms, joints, actuators, sensors, and control units. With tools for structural dynamics, motor performance, thermal regulation, and electronic reliability, each part can be optimized for precision, resilience, and efficiency in field operations.
Harvesting and Planting Robots
- Perform structural analysis to evaluate the robot's durability and ability to withstand mechanical stresses during harvesting and planting operations.
- Use embedded software simulations to optimize control algorithms and improve automation, ensuring precise execution of tasks.
Weeding Robots
- Perform rigid body dynamics simulations to evaluate the interaction between the robot's tools and the soil, ensuring effective weed removal.
- Simulate fluid dynamics to enhance the distribution and effectiveness of herbicides, ensuring minimal waste and maximum coverage.
Soil Analysis Robots
- Simulate electromagnetic field analysis to ensure accurate data collection from soil health sensors.
- Conduct thermal analysis to manage heat generated by the sensors and control systems, ensuring reliable performance.
Relevant Ansys Software
ANSYS offers a powerful suite of tools including Mechanical, Motion, Fluent, Maxwell, Twin Builder, and SCADE for agricultural robotics development.
These solutions enable multi-physics simulation of mechatronic systems—covering structure, control logic, power electronics, and digital twins for predictive maintenance and autonomous operations.
Storage and Processing Facilities
ANSYS provides robust simulation solutions to support the design and optimization of agricultural storage and processing systems. From silos and warehouses to grain dryers and cold storage units, ANSYS enables precise modeling of structural integrity, thermal control, airflow, and material handling systems.
Thermal simulations to optimize temperature control for preserving perishable goods.
Structural analysis to ensure the stability and durability of storage buildings under various loads and environmental conditions.
Fluid flow analysis to design efficient ventilation systems for maintaining air quality in storage areas.
Vibration analysis to ensure the buildings can withstand vibrations due to machinery and seismic loads during earthquakes.
Smoke propagation analysis to evaluate safety measures and enhance fire prevention strategies.
Component-Level Capabilities
ANSYS enables detailed simulation of critical facility components such as structural frames, insulation panels, ventilation systems, conveyors, and dryers. Capabilities include structural, thermal, airflow, and fatigue analysis to ensure operational efficiency, safety, and long-term durability.
Storage Structures
- Analyze structural stability to ensure resilience against wind, seismic events, and heavy loads from stored materials.
- Perform thermal analysis to evaluate insulation performance, ensuring energy efficiency and optimal storage conditions.
Cooling Systems
- Simulate thermal performance to ensure consistent cooling for perishable goods in varying environmental conditions.
- Evaluate fluid dynamics in refrigerant systems for efficient heat exchange and energy conservation.
Processing Equipment
- Simulate vibration effects to ensure the reliability and longevity of machinery used in food and crop processing.
- Analyze fatigue in critical components to minimize downtime and ensure safe, long-term operation.
Ventilation Systems
- Simulate airflow dynamics for optimal air exchange and humidity control within storage and processing facilities.
- Perform smoke propagation simulations to evaluate the effectiveness of evacuation systems in case of a fire emergency.
Relevant Ansys Software
ANSYS offers powerful tools including Mechanical, Fluent, CFX, and Twin Builder to support design and analysis of storage and processing systems.
These tools help model structural loads, simulate temperature distribution, optimize airflow, and evaluate system performance under various agricultural conditions.
Greenhouses
ANSYS delivers simulation solutions designed to optimize the design, energy efficiency, and environmental control of greenhouse structures. From structural load-bearing analysis to airflow, lighting, and thermal simulations, ANSYS helps create sustainable and high-performing agricultural environments.
Thermal analysis to ensure optimal temperature regulation, improving energy efficiency and crop growth conditions.
Fluid dynamics simulations to optimize airflow patterns for effective ventilation and humidity control.
Structural simulations on the framework to ensure durability under various environmental loads, such as wind, snow, and earthquakes.
Corrosion analysis to evaluate the long-term durability of greenhouse structures and components under exposure to humid and chemical-rich environments.
Component-Level Capabilities
ANSYS enables simulation of essential greenhouse components such as frames, glass panels, HVAC systems, shading devices, and irrigation mechanisms. Capabilities include structural stress, wind loading, thermal performance, fluid dynamics, and solar radiation analysis to ensure safe, efficient, and climate-responsive greenhouse systems.
Frames and Supports
- Simulate structural analysis to evaluate the durability and safety of frames under extreme weather conditions.
- Analyze corrosion effects to ensure long-term reliability in humid environments.
Ventilation Systems
- Simulate fluid dynamics to optimize airflow for efficient temperature and humidity control.
- Analyze vibration effects on fans and ducts to ensure quiet and efficient operation over time.
Glazing Panels
- Perform thermal analysis to ensure optimal temperature inside the greenhouse for crop growth.
- Evaluate the structural performance of panels under wind and impact loads for enhanced safety and reliability.
Irrigation and Nutrient Delivery Systems
- Simulate fluid dynamics for efficient water and nutrient distribution within the controlled environment.
- Perform erosion analysis to assess the durability of piping components exposed to high-velocity fluid flow and particulate matter.
Relevant Ansys Software
ANSYS provides powerful tools including Mechanical, Fluent, CFX, SPEOS, and Twin Builder for designing and analyzing greenhouses.
These tools allow for the simulation of structural loads, airflow, temperature distribution, light optimization, and control systems to create an ideal plant growth environment.
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FAQ
How can ANSYS improve the performance of my automotive designs?
ANSYS allows for detailed simulation and analysis, enabling optimization of factors like aerodynamics, structural integrity, and thermal management. This leads to better performing and more efficient vehicles.
Can ANSYS help reduce the time and cost of automotive development?
Yes, by providing accurate virtual testing, ANSYS reduces the need for physical prototypes and testing cycles. This leads to faster development times and significant cost savings.
What types of automotive simulations can ANSYS perform?
ANSYS can handle a wide range of simulations, including crash analysis, fluid dynamics for aerodynamics, thermal analysis for engine cooling, and NVH analysis for noise reduction.
Is ANSYS compatible with my existing CAD software?
ANSYS is designed to integrate with most standard CAD software, ensuring a smooth workflow. We support common file formats for easy data transfer and interoperability
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Testimonials
Customer Testimonials
Bengal Industries Pvt. Ltd
The ANSYS Mechanical training conducted by Qantur Technologies was highly informative and helped our engineers resolve critical challenges in contact modeling, meshing, and fatigue analysis. The sessions were well-coordinated, delivered on schedule, and supported with patient guidance by the trainer and account manager. We truly value Qantur’s expertise, professionalism, and post-sales support.
Bengal Industries Pvt. Ltd
Bliss Anand Pvt. Ltd.
During our evaluation of CFD solutions, Qantur Technologies stood out for their technical expertise, reliability, and customer-focused approach. Their consulting projects achieved 98% accuracy compared to experimental values, instilling strong confidence in their capabilities. Based on this experience, we selected them as our preferred partner for ANSYS software, consulting, training, and support. We highly recommend their services to organizations with simulation requirements.
Bliss Anand Pvt. Ltd.
CUET, Department of Mechanical Engineering
We experienced significant value from Qantur Technologies’ expertise in ANSYS solutions, particularly in FEA and CFD consulting. Their skilled engineers provided insightful training on geometry, meshing, and modeling, which enhanced our students’ and faculty’s analytical skills. With exceptional support and patience from their trainers, we are pleased to recommend Qantur Technologies for ANSYS implementation, training, and advanced simulation services.
CUET, Department of Mechanical Engineering
Entecnia Consulting Pvt. Ltd.
Our collaboration with Qantur Technologies for ANSYS implementation and consulting has been outstanding. Their commitment, technical expertise, and timely support in FEA and CFD have added significant value to our engineering and R&D teams. The exclusive 15-day training session further enhanced our team’s analytical skills, and we truly appreciate their professionalism and ownership in managing the entire process seamlessly. We highly recommend Qantur Technologies for advanced CAE solutions.
Entecnia Consulting Pvt. Ltd.
Flovel Energy Pvt. Ltd.
Our experience with Qantur Technologies in implementing ANSYS HPC and CFD solutions has been remarkable. Their skilled engineers conducted in-depth training for our R&D team, equipping us with advanced methods to simulate hydro turbines and enhance component performance. Their reliable support, technical expertise, and resource assistance make them a trusted partner for ANSYS software, consulting, and training. We highly recommend Qantur Technologies for any ANSYS-related services.
Flovel Energy Pvt. Ltd.
Flovel Energy Pvt. Ltd.
We truly value the ANSYS SpaceClaim training conducted by Qantur Technologies at our R&D center. The course was tailored to our requirements, highly informative, and supported by hands-on workshops that enhanced our team’s modeling skills. Their application engineer was proactive, helpful, and ensured customization aligned with our needs. We look forward to engaging Qantur Technologies again for future application-based trainings.
Flovel Energy Pvt. Ltd.
IoTechWorld Avigation Pvt. Ltd.
At IoTechWorld, we develop advanced drones for agriculture, survey, and surveillance, and ANSYS Mechanical & CFD have been instrumental in optimizing our designs. Qantur Technologies supported us with the right resources, training, and technical expertise to address complex FEA & CFD challenges. Their team’s commitment and knowledge have empowered us to innovate faster and more effectively. We highly recommend Qantur Technologies for ANSYS implementation, consulting, and support.
IoTechWorld Avigation Pvt. Ltd.
Karman Drones Pvt. Ltd.
Our collaboration with Qantur Technologies for At Karman Drones, innovation drives our mission in AI-powered autonomous drones. Qantur Technologies has been a key partner in implementing ANSYS software, providing outstanding FEA & CFD expertise, consulting, and hands-on training. Their engineers have empowered our team with advanced simulation knowledge, improving design validation, performance optimization, and overall efficiency. We highly recommend Qantur Technologies for their exceptional support and technical proficiency.
Karman Drones Pvt. Ltd.
Mittal Electronics
At Mittal Electronics, innovation and R&D are at the heart of our product development. Partnering with Qantur Technologies for ANSYS FEA & CFD has been transformative—helping us accelerate design validation, optimize performance, and tackle complex engineering challenges with confidence. Their expert training, consulting, and quick response have greatly strengthened our engineering capabilities. We look forward to continued collaboration with Qantur Technologies.
Mittal Electronics
MV Electrosystems Pvt. Ltd.
At MV Electrosystems, innovation in rail transportation demands precision and reliability. Partnering with Qantur Technologies for ANSYS ICEPAK & Mechanical has significantly enhanced our ability to optimize product design, improve efficiency, and accelerate development. Their expert training, technical guidance, and hands-on support in FEA & CFD not only strengthened our engineering skills but also deepened our understanding of core physics. We truly value this collaboration and highly recommend Qantur Technologies for simulation-driven innovation.
MV Electrosystems Pvt. Ltd.
Nicotra India Pvt. Ltd.
At Nicotra India, precision in fan design is critical. Qantur Technologies has been a valuable partner, providing quick and responsive CFD support—both onsite and online—that helped us validate designs and solve complex meshing and model setup challenges. Their extensive training sessions empowered our R&D team with practical simulation expertise, strengthening our analytical and design capabilities. We are pleased with their services and highly recommend them for ANSYS implementation and technical support.
Nicotra India Pvt. Ltd.
NTF (India) Pvt. Ltd.
At NTF India, we rely on advanced engineering solutions to deliver world-class automotive components. Qantur Technologies has been a trusted partner, supporting us with ANSYS implementation and in-depth FEA analysis for our key projects. Their professionalism, technical expertise, and ability to deliver under challenging conditions have consistently exceeded our expectations. We highly value their commitment and look forward to continued collaboration on future product development initiatives.
NTF (India) Pvt. Ltd.
Onassis Auto Limited
At Onassis Auto, precision and reliability are at the core of our automotive components. With Qantur Technologies’ guidance in Ansys Mechanical, we have successfully enhanced our engineering capabilities, optimized transmission components, and improved efficiency. Their hands-on training, prompt support, and expertise in FEA have greatly empowered our R&D team. We are pleased to recommend Qantur Technologies for their outstanding technical services and commitment.
Onassis Auto Limited
P2P Analysis & Solutions
At P2P Analysis & Solutions, innovation is our core, and Qantur Technologies has been an invaluable partner in this journey. Their technical excellence in Ansys Mechanical and LS-DYNA, coupled with meticulous training and proactive support, has empowered our team to solve complex challenges with confidence. Their professionalism, collaborative approach, and customer-centric commitment make them a trusted long-term partner. We strongly recommend Qantur Technologies for any Ansys-related solutions and services.
P2P Analysis & Solutions
S&O Marintime
S&O Marintime
