Alternatives to SOLIDWORKS Flow Simulation

Azore is software for computational fluid dynamics. It analyzes fluid flow and heat transfers. CFD allows engineers and scientists to analyze a wide range of fluid mechanics problems, thermal and chemical problems numerically using a computer. Azore can simulate a wide range of fluid dynamics situations, including air, liquids, gases, and particulate-laden flow. Azore is commonly used to model the flow of liquids through a piping or evaluate water velocity profiles around submerged items. Azore can also analyze the flow of gases or air, such as simulating ambient air velocity profiles as they pass around buildings, or investigating the flow, heat transfer, and mechanical equipment inside a room. Azore CFD is able to simulate virtually any incompressible fluid flow model. This includes problems involving conjugate heat transfer, species transport, and steady-state or transient fluid flows.

SOLIDWORKS is a world-leading 3D design, CAD, and product development platform that has defined innovation for engineers and creators for over three decades. Built by Dassault Systèmes, it delivers a unified environment for design, simulation, documentation, and manufacturing—all with the goal of helping users bring ideas to life faster. The 2026 version marks a major leap forward with AI-powered automation, including selective loading for large assemblies, fastener recognition, and AURA AI, an intelligent design companion that boosts productivity. Deep integration with the 3DEXPERIENCE cloud ecosystem allows teams to collaborate securely, access designs anywhere, and connect real-time data from concept to production. With powerful simulation tools, electrical design integration, and streamlined workflows, SOLIDWORKS reduces manual effort and design iteration time dramatically. Its intuitive interface and broad compatibility make it ideal for both professionals and students. Trusted by innovators like Future Motion, Toyota, and Vermeer, SOLIDWORKS continues to shape the future of design and engineering. Whether you’re creating consumer products, vehicles, or complex machinery, it provides everything you need to go from idea to reality.

Ansys Icepak serves as a computational fluid dynamics (CFD) solver specifically designed for managing thermal issues in electronic devices. It offers insights into airflow, temperature distributions, and heat transfer phenomena within integrated circuit packages, printed circuit boards (PCBs), electronic assemblies, and power electronics. By leveraging the top-tier Ansys Fluent CFD solver, Ansys Icepak delivers robust cooling solutions tailored for electronic components, allowing for thorough thermal and fluid flow evaluations. The software operates through the Ansys Electronics Desktop (AEDT) graphical user interface (GUI), facilitating comprehensive analyses of heat transfer involving conduction, convection, and radiation. Moreover, it boasts sophisticated features for modeling both laminar and turbulent flow conditions, as well as conducting species analysis that incorporates radiation and convection effects. Ansys’ extensive PCB design platform empowers users to perform simulations on PCBs, ICs, and packages, enabling a precise assessment of complete electronic systems, thereby enhancing design efficiency and performance optimization. Thus, Ansys Icepak stands out as an essential tool for engineers aiming to improve thermal management in their electronic designs.

Autodesk CFD is a sophisticated software for computational fluid dynamics that allows engineers and analysts to forecast the behavior of liquids and gases with high accuracy. This tool significantly reduces the reliance on physical prototypes while enhancing understanding of fluid flow performance in various designs. It equips engineers with an extensive suite of robust tools aimed at optimizing system designs, managing thermal issues particularly in electronics cooling, and integrating Building Information Modeling (BIM) to improve occupant comfort in HVAC systems within Architecture, Engineering, and Construction (AEC) and Mechanical, Electrical, and Plumbing (MEP) sectors. Furthermore, the Application Programming Interface (API) and scripting capabilities enhance Autodesk CFD's functionalities, enabling customization and automation of routine tasks through the Decision Center. Additionally, the Decision Center streamlines the process of comparing system designs, thereby accelerating decision-making in design processes. This comprehensive approach not only improves efficiency but also empowers engineers to make more informed decisions in their projects.

By utilizing CONSELF, you can harness the power of Computational Fluid Dynamics (CFD) and Finite Element Analysis (FEA) to enhance your product designs: reduce drag and losses related to fluid dynamics, boost efficiency, optimize heat exchange capabilities, assess pressure loads, confirm material strength, analyze deformation in component shapes, compute natural frequencies and modes, among various other functions. The platform offers both static and dynamic simulations for Structural Mechanics, accommodating the behavior of materials under elastic and plastic conditions. Additionally, it enables modal and frequency analyses, starting from widely used CAD neutral file formats, ensuring a seamless integration into your design workflow. This comprehensive approach allows for innovative solutions to complex engineering challenges.

Utilize COMSOL's multiphysics software to replicate real-world designs, devices, and processes effectively. This versatile simulation tool is grounded in sophisticated numerical techniques. It boasts comprehensive capabilities for both fully coupled multiphysics and single-physics modeling. Users can navigate a complete modeling workflow, starting from geometry creation all the way to postprocessing. The software provides intuitive tools for the development and deployment of simulation applications. COMSOL Multiphysics® ensures a consistent user interface and experience across various engineering applications and physical phenomena. Additionally, specialized functionality is available through add-on modules that cater to fields such as electromagnetics, structural mechanics, acoustics, fluid dynamics, thermal transfer, and chemical engineering. Users can select from a range of LiveLink™ products to seamlessly connect with CAD systems and other third-party software. Furthermore, applications can be deployed using COMSOL Compiler™ and COMSOL Server™, enabling the creation of physics-driven models and simulation applications within this robust software ecosystem. With such extensive capabilities, it empowers engineers to innovate and enhance their projects effectively.

FEATool Multiphysics – "Physics Simulator Made Easy" – a fully integrated physics simulation, FEA and CFD toolbox. FEATool Multiphysics provides a fully integrated simulation platform that includes a unified user interface for several multi-physics solvers such as OpenFOAM and Computational fluid dynamics (CFD), including SU2 Code and FEniCS. This allows users to model coupled physics phenomena, such as those found in fluid flow and heat transfer, structural, electromagnetics acoustics and chemical engineering applications. FEATool multiphysics is a trusted tool for engineers and researchers in the energy, automotive and semi-conductor industries.

The engineering standard pipe flow software allows you to manage the entire fluid system's lifecycle. Pipe flow analysis software that is industry leading in accuracy, functionality, and usability. No spreadsheets or hidden costs. Must-read for those who manage, design or operate mission critical fluid processing environments. The cornerstone of the digital transformation journey towards Industry 4.0/Digital Twin Operations Management.

SimFlow is a desktop Computational Fluid Dynamics analysis software for Windows OS and Linux OS. It is based upon OpenFOAM libraries and acts as an OpenFOAM GUI. It is a professional CAE package that engineers can use to create 3D simulations. SimFlow is a powerful CFD software that can be used for all purposes. SimFlow combines the intuitive graphical user interface of OpenFOAM®, with the benefits of the open-source OpenFOAM®. SimFlow is free to download and you can use it in an evaluation mode to solve some of the most difficult problems that you face as an engineer or scientist. Perhaps you use CFD software every day or just want to get started on your adventure. SimFlow is a powerful fluid simulation software that allows you to rediscover CFD without any time limits.

Ansys Fluent stands out as the premier fluid simulation software, distinguished by its cutting-edge physics modeling features and unmatched precision. By utilizing Ansys Fluent, you can dedicate more time to innovation and enhancing product efficiency. This software is backed by extensive validation across diverse applications, ensuring you can rely on its simulation outcomes. With Ansys Fluent, creating sophisticated physics models and evaluating various fluid dynamics phenomena is seamless within a user-friendly and customizable interface. This robust simulation tool significantly expedites your design process, allowing for quicker iterations and improvements. Boasting top-tier physics models, Ansys Fluent can effectively and accurately tackle intricate, large-scale simulations. The software unveils new possibilities for computational fluid dynamics (CFD) analysis. Additionally, its rapid pre-processing capabilities and swift solving times empower you to be the quickest in bringing your products to market. Fluent's unmatched features foster boundless innovation while maintaining a steadfast commitment to precision and reliability. Ultimately, Ansys Fluent not only enhances your design capabilities but also positions you ahead of the competition in a fast-paced industry.

Subjecting your designs to real-world scenarios can significantly enhance product quality while simultaneously minimizing the costs associated with prototyping and physical testing. The SOLIDWORKS® Simulation suite offers a user-friendly collection of structural analysis tools that employ Finite Element Analysis (FEA) to forecast how a product will behave in actual physical conditions by virtually evaluating CAD models. This comprehensive portfolio is equipped with capabilities for both linear and non-linear static and dynamic analyses. With SOLIDWORKS Simulation Professional, you can refine your designs by assessing mechanical resistance, durability, topology, natural frequencies, as well as examining heat transfer and potential buckling issues. Additionally, it facilitates sequential multi-physics simulations to enhance design accuracy. On the other hand, SOLIDWORKS Simulation Premium allows for an in-depth assessment of designs concerning nonlinear and dynamic responses, dynamic loading conditions, and composite materials. This advanced tier also features three specialized studies: Non-Linear Static, Non-Linear Dynamic, and Linear Dynamics, ensuring a thorough evaluation of your engineering projects. By leveraging these powerful tools, engineers can achieve greater design confidence and innovation.

ColdStream is a cutting-edge cloud-based platform for thermal simulation engineering that streamlines every aspect of your thermal management and cooling design workflow, covering everything from thermal analysis to the creation of thermal designs. With Diabatix's advanced thermal simulation software, your organization can accelerate product development by leveraging the latest technology available. Gain crucial insights into heat transfer, including temperature distribution, heat dissipation, fluid dynamics, thermal resistance, thermal radiation, cooling capacity, and much more. Instead of wasting time searching for the most effective heat sinks to manage the cooling of your electronic devices and products, allow ColdStream to handle the process for you. You can simply upload your geometry, configure the necessary operating conditions for the thermal simulation, and establish your heat sink design goals with just a few clicks, making the process remarkably efficient and user-friendly. This innovative approach not only saves time but also enhances the accuracy and effectiveness of your thermal management solutions.

Calculate fluid flow quickly and accurately. The Pipe Flow Calculator will be a valuable tool for engineers, students and professionals who work with fluid dynamics. It solves fluid flow problems, both simple and complex, in under a second. Why Choose Pipe Flow Calculator? Easy to Use: Just enter values to get instant results. Trusted worldwide - used daily by thousands professionals. Reliable and Updated - Bug fixes in 1-2 days. Transparent Calculations: All formulas are provided. Key Features Change between imperial and metric units. Choose pipes, materials and fluids on predefined lists. Export results to Excel & Word. Save, print and continue where you left. Copy/paste the full calculation reports. Available Calculators Pressure Drop, Pump Performance, Pipe Diameter and Reynolds Number Orifice Plates, Venturi Tubes, Nozzles, Prandtl Probe Control Valve, LPG, Thermal Energy

AKL FlowDesigner is an advanced computational fluid dynamics (CFD) software that facilitates wind analysis by allowing users to effortlessly import 3D models of structures or urban blocks created with modeling applications like Autodesk Revit, GRAPHISOFT ARCHICAD, Rhinoceros, and SketchUp. This software supports BIM capabilities in IFC format, making it a valuable tool for architects, designers, engineers, and consultants who can leverage it early in the design phase to comprehend and visualize airflow around their projects. By conducting early analyses, professionals can significantly decrease design time while also making a strong impression on their clients. The CFD simulations offered by AKL FlowDesigner provide substantial advantages in the architecture, engineering, and construction (AEC) sectors. Previously, simulating airflow was a daunting and time-intensive process that necessitated extensive technical expertise; however, with AKL FlowDesigner, users can easily create simulations and analyze airflow within minutes, eliminating the need for an engineering background or intricate calculations. This user-friendly approach opens up the world of CFD to a broader audience, empowering more individuals to enhance their design projects.

For many years, SINDA/FLUINT has been recognized for its effective and robust capabilities in heat transfer and fluid analysis, with enhancements introduced annually. This versatile tool serves as an all-encompassing platform for simulating intricate thermal and fluid systems, applicable across a variety of sectors including electronics, automotive, petrochemicals, power generation, healthcare, and aerospace. By streamlining the design process, SINDA/FLUINT enables users to save both time and financial resources, facilitating a deeper comprehension of their complex systems. You have the power to determine what aspects are crucial and how to approach your design performance inquiries in the most efficient manner. Additionally, the software's extensibility makes it potentially the most adaptable thermal and fluid analysis tool available today. Users can select the features they desire, establish the necessary levels of precision and approximation, and specify the required outputs, ensuring a tailored experience that meets their unique needs. This flexibility allows engineers to optimize their designs effectively in the challenging landscape of modern technology.

FloCAD® serves as an add-on module for Thermal Desktop®, creating a comprehensive software solution for thermohydraulic analysis that encompasses fluid flow and heat transfer. The process of constructing fluid flow models in FloCAD closely resembles that of thermal models, allowing for the use of numerous shared commands across both model types. Users can create FloCAD models using a free-form approach, which allows for the simplification and abstraction of flow networks, or they can opt for geometry-based modeling that incorporates elements like pipe centerlines, cross-sections, and intricate vessels, as well as convection calculations linked to finite difference or finite element thermal structures. As an advanced tool for pipe flow analysis, FloCAD effectively accounts for pressure losses within piping networks arising from bends, valves, tees, and variations in flow area, among other factors. This versatility makes FloCAD a valuable asset for engineers looking to optimize system designs.

Calsep stands out as a premier provider of PVT simulation services tailored for the oil and gas sector. They have successfully tackled PVT modeling assignments across all seven continents. Their projects encompass EoS modeling for a diverse range of reservoir fluids, such as natural gas, gas condensates, near-critical fluids, black oils, and heavy oils. The cornerstone of Calsep’s offerings is PVTsim Nova, a dynamic PVT simulation tool designed for reservoir engineers, flow assurance experts, PVT laboratory engineers, and process engineers alike. PVTsim allows users to navigate the entire process from fluid sampling to design and process planning with ease. Users can perform quality checks on fluid compositions, create EoS models, manage water interactions, assess the risk of solids precipitation, and generate input for over 30 external simulators, which include some of the industry's most recognized reservoir, process, and flow simulation tools. With the release of PVTsim Nova 5.1, Calsep has integrated support for PRODML and Calsep Excel PVT Templates, enabling fluid composition and PVT data to be imported into PVTsim with just a single click. This seamless integration not only enhances user experience but also streamlines workflows, making it easier for professionals to manage complex fluid data efficiently.

SimScale, a web-based cloud application, plays an important role in simulation software for many industries. The platform supports Computational Fluid Dynamics, Finite Element Analysis (FEA), as well as Thermal Simulation. It also provides 3D simulation, continuous modeling, motion & dynamic modelling.

Enhance engineering processes with the only comprehensive and user-friendly CFD platform designed for multidisciplinary design and optimization. Computational fluid dynamics (CFD) plays a crucial role in multiphysics system analysis, allowing for the simulation of fluid behavior and thermodynamic characteristics through advanced numerical models. Engineers leverage the Cadence Fidelity CFD platform for various design tasks, including propulsion, aerodynamics, hydrodynamics, and combustion, to enhance product efficiency while minimizing the need for costly and time-intensive physical testing. This robust Fidelity CFD platform offers a seamless end-to-end solution tailored for applications across aerospace, automotive, turbomachinery, and marine sectors. With its efficient workflows, massively parallel architecture, and cutting-edge solver technology, the platform delivers remarkable performance and accuracy, significantly boosting engineering productivity in addressing contemporary design challenges. Ultimately, Fidelity stands out by not only simplifying complex processes but also enabling engineers to innovate rapidly and effectively.

Adaptive Research is excited to unveil the CAESIM 2024 simulation platform, which is now available for immediate use, featuring enhanced computational fluid dynamics modeling along with multi-physics functionalities. This latest software version introduces innovative tools and features designed to streamline the modeling process, enabling CFD engineers to achieve rapid simulation results with greater efficiency. Additionally, the platform aims to enhance user experience through improved interfaces and capabilities.

HRS-AHED, a new software for the calculation shell and tube heat transferrs, features fluids and mixing assistance, sensible heat / condensate calculations, single and multi pass units with or without baffles, and many other features: fluid database and customizable geometries; project sharing; batch calculation; vibration analysis and reporting. We have searched scientific literature extensively to ensure that the most up-to-date methods of heat transfer engineering calculation are used in the software. AHED has been used successfully to design many heat exchangers, making it a software solution that is industrially proven.

OpenFOAM is a free and open-source computational fluid dynamics (CFD) software that has been developed by OpenCFD Ltd since its inception in 2004. It boasts a vast user community spanning various engineering and scientific fields, including users from both industry and academia. The software offers a comprehensive suite of features capable of addressing a wide array of challenges, such as intricate fluid dynamics involving chemical reactions, turbulence, heat transfer, as well as applications in acoustics, solid mechanics, and electromagnetics. To ensure continuous improvement, OpenFOAM is released biannually, incorporating enhancements funded by users and contributions from the wider community. The software undergoes thorough testing conducted by ESI-OpenCFD's application specialists, development collaborators, and select customers, all supported by ESI's global network and commitment to quality. The assurance of quality is maintained through a stringent testing regime, which entails hundreds of daily unit tests, a moderate set of tests carried out weekly, and an extensive industry-focused test suite. This meticulous approach ensures that OpenFOAM remains reliable and effective for its diverse user base. Moreover, the collaborative nature of its development fosters a vibrant community that continually drives innovation within the software.

Simcenter STAR-CCM+ is an advanced multiphysics computational fluid dynamics (CFD) software that enables the simulation of products in conditions that mimic real-life scenarios. This software stands out by incorporating automated design exploration and optimization into the CFD toolkit accessible to engineers. With a unified platform that encompasses CAD, automated meshing, multiphysics CFD capabilities, and advanced postprocessing, it empowers engineers to thoroughly investigate the entire design landscape, facilitating quicker and more informed design choices. By leveraging the insights offered by Simcenter STAR-CCM+, the design process becomes more strategic, ultimately resulting in innovative products that surpass customer expectations. Enhancing a battery's performance across its complete operating spectrum is a complex endeavor that necessitates the concurrent optimization of various parameters. In this context, Simcenter delivers a comprehensive simulation environment tailored for the analysis and design of electrochemical systems, fostering a deeper understanding of their behavior. This holistic approach allows engineers to tackle intricate challenges with confidence and precision.

Energy2D is an interactive multiphysics simulation program grounded in computational physics, designed to model the three primary modes of heat transfer: conduction, convection, and radiation, while also integrating particle dynamics. This software operates efficiently on a wide range of computers, simplifying the process by removing the need for switches between preprocessors, solvers, and postprocessors that are usually necessary for computational fluid dynamics simulations. Users can create "computational experiments" to explore scientific hypotheses or address engineering challenges without the need for intricate mathematical formulations. Additionally, development is ongoing to introduce various energy transformation types and to enhance support for different fluid types. While Energy2D excels in accurately modeling conduction, its representations of convection and radiation are not entirely precise, which means results involving these elements should be regarded as qualitative. Over 40 scientific papers have utilized Energy2D as a valuable research instrument, showcasing its adoption in the academic community. As the program evolves, its capabilities are expected to expand further, potentially offering more comprehensive insights into complex physical interactions.

EMWorks offers top-tier electromagnetic simulation software designed for electrical and electronics engineering, incorporating multiphysics features. Their solutions are fully integrated into SOLIDWORKS and Autodesk Inventor®, catering to a wide range of applications such as electromechanical systems, power electronics, antennas, RF and microwave components, as well as ensuring power and signal integrity in high-speed interconnects. One of their flagship products, EMS, serves as a powerful tool for simulating and optimizing electromagnetic and electromechanical devices like transformers, electric motors, actuators, and sensors within the SOLIDWORKS® and Autodesk® Inventor® environments. Additionally, EMWorks2D is a specialized 2D electromagnetic simulation software that focuses on planar and axis-symmetric geometries, also fully embedded in SOLIDWORKS, allowing users to perform quick simulations prior to transitioning to 3D models. This functionality not only enhances the design process but also accelerates overall product development, making it easier for engineers to refine their designs efficiently. By leveraging these advanced tools, users can achieve optimal performance in their electronic designs while saving valuable time in the engineering workflow.

Altair Activate is utilized to model and simulate a diverse array of products as interconnected systems, facilitating the discovery of improved designs at an accelerated pace. As products across various sectors grow more intricate, electrified, intelligent, and interconnected, the need for advanced simulation tools becomes paramount. By leveraging multi-disciplinary system-level simulation capabilities, designers can develop sophisticated mechatronic systems more holistically, fostering enhanced collaboration and streamlined workflows among product development teams. Altair Activate effectively eliminates barriers between various subsystems, including mechanical, electrical, control, and electronic components, as well as software and hardware-in-the-loop interactions, alongside data analytics. Utilizing 1D modeling and simulation for thermal-fluid system dynamics allows for nearly equivalent accuracy to traditional 3D CFD methods, while significantly reducing timeframes, thereby promoting extensive design exploration and performance optimization more efficiently. This innovative approach not only speeds up the design process but also empowers teams to create more integrated and efficient product solutions.

Effective design and operation of production systems necessitates a comprehensive grasp of the behavior of multiphase flow. Utilizing flow modeling and simulation offers critical insights into the dynamics of flow, encompassing the physical principles that govern movement throughout the entire production system, starting from the reservoir's pore spaces and extending to processing facilities. The Olga dynamic multiphase flow simulator is adept at modeling transient flow behaviors, which are crucial for optimizing production capabilities. Such transient modeling is vital for conducting feasibility assessments and designing field developments. In deepwater contexts, dynamic simulation plays a pivotal role and is frequently employed in both offshore and onshore projects to analyze transient behaviors in pipelines and wellbores. By employing the Olga simulator for transient simulation, engineers can gain deeper insights beyond steady-state analyses, enabling them to forecast system dynamics, including fluctuations in flow rates, variations in fluid compositions, changes in temperature, the buildup of solids, and alterations in operational parameters. Consequently, mastering these transient characteristics is essential for improving efficiency and reliability in production operations.

6SigmaET is a sophisticated tool for thermal modeling in electronics that employs cutting-edge computational fluid dynamics (CFD) to produce precise simulations of electronic devices. Tailored for the electronics sector, our thermal simulation software brings unmatched intelligence, automation, and precision to assist you in fulfilling your requirements and addressing thermal design obstacles. Since its launch in 2009, 6SigmaET has rapidly emerged as the leading thermal simulation software within the electronics cooling industry. Its flexibility enables users to assess the thermal characteristics of a wide array of electronic components, from the tiniest integrated circuits to the largest, most robust servers. You can discover more about the benefits 6SigmaET offers your field by watching our informative videos or reviewing our comprehensive case studies. Additionally, 6SigmaET allows for the seamless import of complete CAD geometry and PCB designs, significantly cutting down the time needed for model creation and enhancing overall efficiency in thermal analysis. This capability streamlines the process, enabling engineers to focus more on optimization rather than on initial setup.

SOLIDWORKS® Electrical Professional merges the electrical schematic design features of SOLIDWORKS Electrical Schematics with the three-dimensional capabilities of SOLIDWORKS Electrical 3D into a single comprehensive solution. For effective planning of embedded electrical systems, it is essential to have an integrated electrical toolset that includes both single- and multi-line schematic functionalities. Additionally, it is crucial for the design of embedded systems to ensure that all 2D and 3D work remains in sync for both the mechanical and electrical components involved. This tool aids in planning electrical systems by allowing users to create intricate embedded electrical layouts using straightforward pictorial representations of components and their connections. Furthermore, it offers a schematic creation tool that features a user-friendly interface designed to streamline repetitive tasks for enhanced efficiency. Users can also generate 2D representations of panels directly from electrical schematics, complete with outlines for electrical components. An extensive library of schematic symbols adhering to industry standards (such as IEC, ANSI, JIS, and GB) is complemented by a comprehensive database of manufacturer parts, making it an invaluable resource for engineers and designers. The combination of these features allows for a more efficient workflow in the design and documentation of electrical systems.

Developing particle simulations for Autodesk 3ds Max can be achieved with greater efficiency than many competing fluid dynamics plugins, enabling artists without coding or scripting skills to utilize a flexible procedural geometry modifier with ease. This tool also offers an intuitive channel-editing interface, akin to what is found in node-based image compositing software. Unlike the Autodesk 3ds Max SDK, it does not provide optimized geometry and particle lookup functions, which is where AWS Thinkbox Stoke excels, allowing for the rapid generation of expansive particle clouds. Additionally, it supports various formats, including PRT and RealFlow BIN, while also facilitating simulations from several popular plugins like FumeFX, Particle Flow, cebas thinkingParticles, and 3ds Max Force Space Warps. Users can create and simulate new fields, such as velocity fields, as well as manage field data through widely accepted formats. This functionality can be seamlessly integrated with 3ds Max subsystems, including Particle Flow, MassFX, Hair and Fur, and various materials and renderers. The user-friendly nature of this solution empowers artists to focus on their creative process without the burden of technical complexities.

Develop more accurate models of your reservoir fluids by utilizing dependable and straightforward PVT software to calculate essential PVT properties. PVT Solver can effectively illustrate the behavior of petroleum reservoir fluids, making it an ideal choice for easy PVT simulation and exporting various fluid properties. You can analyze reservoir fluids through a simple three-step process, which involves using the easiest fluid properties software available for your PVT modeling needs. In Step 1, input the necessary data by identifying the existing separation system and entering the relevant field parameters. Step 2 involves comparing correlations, allowing you to visualize various correlation models for each fluid property. In Step 3, you will calculate properties by selecting a correlation for each property and defining the calculation range. It’s essential to utilize the most recognized fluid correlations in the industry, such as Sutton (2007) for gas pseudo-critical properties and Dranchuk-Abou-Kassem (DAK) (1975) for gas z compressibility or deviation factors. Additionally, Standing (1947) can be employed for bubble point calculations. Ultimately, these steps lead to a more comprehensive understanding of reservoir fluid behavior, enhancing your modeling accuracy.

Like the other Dlubal Software programs RWIND, the wind simulation program RWIND is simple to use and delivers the desired result reliably. RWIND will ensure that the wind does not blow out of your project's sails. RWIND allows for the analysis of wind flows (digital winds tunnel) around buildings and other objects. RWIND uses a CFD simulation, which simulates the effects of wind on the structures. You can run a wind simulation for simple and complex structures. The result will speak for itself. The wind loads calculated using RWIND can then be imported into RFEM and RSTAB.

Create efficient and eco-friendly processes that keep pace with market needs by utilizing a cutting-edge, interconnected platform aimed at fostering a circular, sustainable environment. AVEVA Process Simulation enhances flexibility throughout the entire lifecycle of design, simulation, training, and operations, ultimately facilitating the process aspect of the digital twin and expediting the engineering timeline. Engineers are able to work together across various disciplines within one cohesive platform, allowing them to examine all facets of a proposed design while assessing its sustainability, practicality, and economic viability. By employing the same simulation across all engineering stages, you can eliminate unnecessary efforts and streamline the process, fluid flow, and dynamics within a unified model. Replace multiple specialized software tools with a single, user-friendly interface so that every engineer can understand and appreciate their contributions. Additionally, cultivate a nimble engineering workflow that allows for simultaneous collaboration among process, utility, control, and mechanical engineers, resulting in more innovative solutions. This approach not only enhances productivity but also encourages a culture of sustainability across all engineering practices.

Multifunctional dynamics simulator that seamlessly integrates into Autodesk 3ds Max or V-Ray. Chaos® Phoenix can create a wide variety of effects, including smoke, liquids and flames, explosions as well as rigid body simulations, ocean waves and mist. It is easy to set up and quick to use, and the powerful simulation engine allows for complete control over more complicated effects. Chaos® Phoenix is a one-stop solution for fluid dynamics. Simulate fire, smoke and liquids, as well as ocean waves, splashes and mist, and other fluid dynamics. Designed for 3D artists who need to create dynamic FX quickly using presets, quick setup and intuitive controls. Viewport allows you to preview and render interactively. You can adjust simulations as you go. You can create all kinds of fluid effects based on physical properties using flexible controls that allow you to quickly render, retiming, and refine simulations. Integrated seamlessly into 3ds Max, optimized to render with Chaos Vray®.

The adjustments made to materials, lighting, or any other scene elements are instantly reflected in real-time within the viewport, enhancing both the speed and enjoyment of your workflow. FluidRay stands out as the sole interactive renderer free from GPU constraints. While GPU-based renderers perform well for particular tasks, FluidRay adeptly handles all operations swiftly and efficiently. Using FluidRay feels seamless, and its highly intuitive interactive workflow allows anyone to become proficient in just a few minutes. With FluidRay, you can rapidly produce visually impressive previews for architectural designs, interior layouts, jewelry creations, and a variety of other projects. The interactive rendering feature transforms the design of products and environments into a simple and enjoyable experience. Additionally, FluidRay simplifies the process of quickly prototyping your ideas and generating exceptionally high-quality preview images. Moreover, FluidRay’s integration with Rhino allows designers to effortlessly create 3D models in Rhino and import them into FluidRay with ease, streamlining the entire design process even further. The combination of these features makes FluidRay a powerful tool for creative professionals.

Utilizing the distinctive and inherently dynamic Lattice Boltzmann-based physics, the PowerFLOW CFD solution conducts simulations that effectively replicate real-world scenarios. With the PowerFLOW suite, engineers can assess product performance at the early stages of design, before any prototypes are constructed—this is when alterations can have the most substantial effects on both design and budget. The PowerFLOW system seamlessly imports intricate model geometries and conducts aerodynamic, aeroacoustic, and thermal management simulations with high accuracy and efficiency. By automating domain discretization and turbulence modeling along with wall treatment, it removes the need for manual volume meshing and boundary layer meshing. Users can confidently execute PowerFLOW simulations using a large number of compute cores on widely utilized High Performance Computing (HPC) platforms, enhancing productivity and reliability in the simulation process. This capability not only accelerates product development timelines but also ensures that potential issues are identified and addressed early in the design phase.

Utilizing the 3DEXPERIENCE® platform, SIMULIA provides advanced simulation tools that help users better understand and analyze our environment. The applications offered by SIMULIA streamline the assessment of material and product performance, reliability, and safety prior to the development of physical prototypes. These tools deliver robust simulations for various scenarios such as structures, fluids, multibody interactions, and electromagnetics, all while being seamlessly integrated with product data, even for complex assemblies. The comprehensive technology for modeling, simulation, and visualization is fully embedded within the 3DEXPERIENCE platform, which includes capabilities for process capture, publication, and reuse. By allowing simulation data, outcomes, and intellectual property to be linked to the platform, customers can maximize their current investment in simulation capabilities, transforming these assets into valuable resources that foster innovation for all users involved. This integration not only enhances workflow efficiency but also encourages collaborative advancements across different teams and projects.

HyperWorks offers easy-to-learn and effective workflows that leverage domain expertise and increase team productivity. This allows for efficient development of today's complex and connected products. Engineers can now move seamlessly from one domain to another with the new HyperWorks experience. They can even create reports without ever leaving the model. HyperWorks allows you to create, explore, and optimize designs. These designs can accurately model structures, mechanisms and fluids as well as electrical, embedded software, systems designs, and manufacturing processes. The solution-specific workflows improve a variety of engineering processes, including fatigue analysis, CFD modeling, concept design optimization, design exploration, and CFD modeling. Each interface is intuitive and well-designed, and differentiated for each user. It's also consistent and easy to use.

Fluid Financial serves as your ally in revenue collection, functioning as a virtual cash flow manager that provides optional advances on each invoice you issue. With our user-friendly payment optimization tools, you can expect to receive payments around 22 days sooner, all at no cost to you or your team. Your account is safeguarded by bank-grade security measures and a dedicated team of financial experts focused on helping your business thrive. Fluid streamlines your payment processes, allowing you to decide when you receive your funds. Simply create an account and submit your unpaid invoices to your clients. Once your invoice receives approval, you will be notified, and the payment will be instantly accessible for withdrawal, directed to your chosen bank account. The repayment process is straightforward, as your client will handle the payment through Fluid, which will cover your advance. Freelancers, agencies, and small business owners rely on Fluid to enhance their cash flow management, ensuring they remain financially agile in a competitive market. By choosing Fluid, you are not just optimizing payments; you are also embracing a more efficient way to manage your financial relationships.

SOLIDWORKS® Electrical Schematics offers a set of standalone, user-friendly tools designed for electrical design, allowing for the effective definition of electrical connections within intricate systems. With its straightforward interface, SOLIDWORKS Electrical Schematic simplifies complicated processes such as contact cross-referencing and terminal drawings, thereby speeding up the product development cycle while reducing the redundancy typically involved in creating electrical schematics. The Standard version serves as a single-user tool aimed at expediting the design of embedded electrical systems for various types of equipment and products. It features a comprehensive library of symbols and manufacturer part information that promotes the reuse of common components, enhancing design efficiency. Meanwhile, the Professional variant of SOLIDWORKS Electrical Schematic comprises a suite of collaborative tools intended to further accelerate the development of integrated electrical systems, ensuring teams can work together seamlessly. Overall, these tools are essential for improving productivity in electrical design tasks.

SOLIDWORKS PCB streamlines the process of designing Printed Circuit Boards (PCBs) efficiently while fostering exceptional collaboration between electrical engineers and 3D mechanical design teams. This integration provides a significant benefit in scenarios where close ECAD-MCAD cooperation is vital for the successful development of electronic products. Users can define rigid-flex areas, layers, and stack thicknesses, facilitating the design of single board rigid-flex PCBs. Additionally, the regions of the rigid-flex layer stack can be specified with bend lines and angles, which can then be validated through 3D folding and component clearance checks to ensure the accuracy of the layout. Project management, design files, and documentation are seamlessly handled with the SOLIDWORKS PCB-PDM Connector, which enhances the PDM-based design and data management workflow. This system securely stores and organizes design data for quick access, alleviates worries related to version control and potential data loss, and allows for collaborative work on design data from various locations. The unmatched integration and collaboration between ECAD and MCAD offered by SOLIDWORKS ensures that all design data is unified, promoting efficiency and innovation in the product development process. This powerful synergy ultimately leads to improved product quality and faster time-to-market.

Transform your 3D CAD files into stunning, high-quality visuals, engaging animations, and interactive 3D experiences that vividly showcase your products. With ease and speed, produce professional-grade images, dynamic animations, and various interactive content types to accelerate your product launch. SOLIDWORKS® Visualize empowers you to utilize your 3D CAD data for creating exceptional photo-quality outputs, ranging from images to animations, web interactivity, and even immersive Virtual Reality experiences. It effectively serves as the “camera” for your CAD data, enhancing the way you present your designs. The SOLIDWORKS® suite is user-friendly and integrates seamlessly, promoting more efficient and cost-effective product development. Each SOLIDWORKS Professional and Premium license comes with a seat of SOLIDWORKS Visualize Standard for active subscribers, enhancing your capabilities. By leveraging SOLIDWORKS Visualization solutions, you and your team can swiftly convert innovative concepts into outstanding products, gaining a competitive edge in the marketplace. This synergy not only boosts creativity but also streamlines workflows, ensuring your team is always one step ahead.

Create exceptional ParticleFX for a variety of applications, including Solar Systems, futuristic user interfaces, holographic displays, medical visualizations, and even abstract art. With multiple ways to mix Emitters and Modifiers, you unlock a vast array of creative possibilities. Achieve lifelike simulations of smoke, fire, and explosions, and easily export ExplosiaFX as VDB volumes, allowing any compatible render engine to process and visualize the volumetric data. Our advanced Liquid and Grain Solvers empower you to produce visually stunning fluid dynamics, whether you're capturing the beauty of crashing waves at the beach or the intricate details of product splash shots. Enhance your visual storytelling by driving Cloth simulations with any Modifier, and take advantage of advanced tearing options to create dramatic effects. ClothFX introduces an exciting new layer to motion design and destruction VFX, elevating your projects to unprecedented heights. With these tools at your disposal, the potential for innovative animation and captivating visuals is virtually limitless.

Enhance product development and accelerate the launch process with FLOW-3D, an exceptionally precise CFD software adept at addressing transient, free-surface challenges. Accompanied by our cutting-edge postprocessor, FlowSight, FLOW-3D offers a comprehensive multiphysics suite. This versatile CFD simulation platform empowers engineers to explore the dynamic interactions of liquids and gases across a diverse array of industrial sectors and physical phenomena. With a strong emphasis on multi-phase and free surface applications, FLOW-3D caters to various industries, including microfluidics, biomedical technology, civil water infrastructure, aerospace, consumer goods, additive manufacturing, inkjet printing, laser welding, automotive, offshore enterprises, and energy sectors. As a remarkably effective multiphysics resource, FLOW-3D combines functionality, user-friendliness, and robust capabilities to support engineers in achieving their modeling goals, ultimately driving innovation and efficiency in their projects. By leveraging FLOW-3D, organizations can overcome complex challenges and ensure that their designs are optimized for success in competitive markets.

GHE Analysis is an interactive software package that simplifies the design and optimization of ground-source heat pump systems with an easy-to-use interface. It provides tools to size irregular ground heat exchangers accurately and optimize the heat transfer efficiency of geothermal boreholes. Users can also evaluate seasonal performance coefficients to enhance the effectiveness of geothermal heat pumps. Drawing on over two decades of academic research, the software incorporates a robust simulation engine capable of quickly modeling the hourly response of GSHP systems. This feature enables detailed visualization of energy consumption and power demands for various equipment configurations. GHE Analysis assists engineers and designers in creating systems that balance performance with cost efficiency. Its intuitive design tools help reduce errors and improve project outcomes. The software is ideal for professionals looking to optimize sustainable heating and cooling solutions.