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green-ea · 1 month

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Pioneering Sustainable Building Solutions with Comprehensive Energy Assessment and Consulting Services

In the dynamic world of building construction and design, sustainability is no longer a luxury but a necessity. As architects, builders, and developers increasingly focus on green building standards, the demand for specialized consulting and assessment services in energy efficiency and sustainability is growing. At Green Energy Assessment, we offer a suite of services designed to meet these needs, including NatHERS energy rating assessment services, Green Star certification consulting, Section J compliance reports, JV3 assessment services, mechanical design consultancy for commercial buildings, and CFD modelling consulting services. Our aim is to provide our clients with the expertise needed to achieve not only compliance but also performance and sustainability in their building projects.

NatHERS Energy Rating Assessment Services

The Nationwide House Energy Rating Scheme (NatHERS) provides a standard measure of a home's potential energy consumption for heating and cooling. Our expert assessors at GEA utilize advanced software tools to model your building’s thermal performance, providing you with a detailed energy rating that helps in making informed decisions about thermal comfort and energy efficiency. Our services ensure that your project meets or exceeds Australia’s stringent energy regulations, optimizing your building's design for sustainability and cost-effectiveness.

Green Star Certification Consulting Services

Achieving Green Star certification signifies a building’s achievement in environmental sustainability. Our green star certification consulting services guide you through the complex process of certification, from the initial design stages to the final application. We focus on sustainable design practices, helping you incorporate elements such as energy and water efficiency, materials selection, and indoor environmental quality into your project. Our consultants are experienced in navigating the Green Star rating system, ensuring your building achieves its highest potential certification.

Section J Compliance Report and JV3 Assessment Services

For commercial building projects, compliance with Section J of the National Construction Code (NCC) is crucial. Our services include detailed Section J compliance reports that analyze your building's design against the Deemed-to-Satisfy (DtS) provisions and suggest enhancements for energy efficiency. Additionally, we offer JV3 assessment services, an alternative solution to Section J compliance, using thermal simulation methods to demonstrate that your building's energy performance meets or exceeds the DtS provisions. This tailored approach allows for more design flexibility while ensuring compliance.

Mechanical Design Consultancy for Commercial Buildings

Our mechanical design consultancy services are tailored to commercial buildings, focusing on HVAC systems, piping, and energy management systems that meet both the operational needs and sustainability goals of your project. Our team of mechanical engineers designs systems that optimize energy use, enhance indoor air quality, and reduce overall environmental impact. We integrate the latest technologies and sustainable practices to deliver systems that are not only efficient but also cost-effective in the long run.

CFD Modelling Consulting Services

Computational Fluid Dynamics (CFD) modelling is essential for understanding and optimizing the airflow, temperature distribution, and contaminant dispersal in buildings. Our CFD modelling consulting services provide detailed analyses that support the design of ventilation systems and environmental controls. This service ensures that your building provides comfort while maintaining the highest standards of energy efficiency and environmental health.

At Green Energy Assessment, we are committed to leading the charge in sustainable building practices through our comprehensive consulting and assessment services. Whether you are aiming for NatHERS compliance, Green Star certification, or innovative mechanical designs, our team is here to support your project’s success with expert guidance and cutting-edge solutions. Visit our website https://green-ea.net/ to learn more about how we can assist in bringing your sustainable building ambitions to fruition.

#NatHERS energy rating assessment services #green star certification consulting services #section J compliance report and JV3 assessment services #mechanical design consultancy for commercial buildings #CFD modelling consulting services

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businesssinfo · 3 months

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High Velocity Oxygen Fuel Nozzle Spray CFD ANALYSIS

Uncover the secrets of HVOF nozzle spray with CFD analysis. Explore internal flow, particle behavior, and optimize coating formation for superior results.

#CFD Analysis #CFD Consulting Services #Discrete Phase Modelling #flow rate #graphlertech #High Velocity Oxy-Fuel #HVOF

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ebarapump · 5 days

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How Ebara pumps help reduce energy consumption

Ebara pumps are designed with advanced technologies and engineering principles to enhance energy efficiency and reduce energy consumption. Here are several ways Ebara pumps achieve these goals:

1. High-Efficiency Motors

Optimized Motor Design: Ebara submersible pumps are equipped with high-efficiency motors that convert electrical energy into mechanical energy more effectively. These motors operate at higher efficiencies, reducing energy losses.

Energy-Efficient Ratings: Many Ebara pumps meet or exceed international energy efficiency standards, such as NEMA Premium efficiency in the U.S. or IE3/IE4 in Europe, ensuring they consume less power while delivering the same performance.

2. Advanced Hydraulic Design

Optimized Impellers: The impellers in Ebara pumps are designed using advanced computational fluid dynamics (CFD) to minimize hydraulic losses and maximize fluid flow efficiency. This design reduces the energy required to pump fluids.

Streamlined Flow Paths: The internal flow paths of the pumps are engineered to minimize turbulence and friction losses, resulting in more efficient energy use.

3. Variable Frequency Drives (VFDs)

Speed Control: Ebara pumps can be equipped with variable frequency drives (VFDs) that adjust the pump speed to match the demand. This ensures that the pump operates only at the necessary speed, reducing energy consumption during periods of low demand.

Soft Start and Stop: VFDs provide a soft start and stop for the pump, reducing the inrush current and avoiding energy spikes, which also helps in lowering energy costs.

4. Precision Engineering

Tight Manufacturing Tolerances: Ebara pumps are manufactured with precise tolerances to ensure all components work together seamlessly, reducing mechanical losses and enhancing overall pump efficiency.

Quality Materials: High-quality materials reduce wear and tear, maintaining efficiency over the pump’s lifespan and avoiding the energy loss associated with degraded components.

5. Energy-Saving Features

Thermal Protection: Many Ebara pumps include thermal protection features that prevent overheating and ensure the pump operates within its optimal temperature range, reducing energy wastage.

Auto Shut-off: Some models have an automatic shut-off feature that turns the pump off when not needed, preventing unnecessary energy consumption.

6. System Optimization

Right-Sizing Pumps: Ebara provides a range of pump sizes and models, allowing users to select the right pump for their specific application, avoiding the energy inefficiencies associated with over-sized or under-sized pumps.

Consultative Approach: Ebara often works with customers to assess their system needs and recommend the most efficient pump setup, ensuring the overall system operates at peak efficiency.

7. Maintenance and Reliability

Long Service Intervals: Ebara pumps are designed for long service intervals, reducing downtime and maintaining high efficiency over time.

Easy Maintenance: Simplified maintenance procedures ensure that pumps are kept in optimal condition, preventing the energy losses associated with poorly maintained equipment.

8. Innovative Technologies

Permanent Magnet Motors: Some Ebara models feature permanent magnet motors, which offer higher efficiency compared to traditional induction motors.

Smart Monitoring Systems: Ebara pumps can be integrated with smart monitoring systems that track performance metrics and alert users to inefficiencies or maintenance needs, allowing for proactive energy management.

By incorporating these advanced technologies and design principles, Ebara pumps help users significantly reduce energy consumption, leading to lower operating costs and a smaller environmental footprint. Whether through high-efficiency motors, advanced hydraulic designs, VFD integration, or smart system optimization, Ebara pumps are engineered to provide energy-efficient solutions across a wide range of applications. For more info contact Ebara Pump Suppliers in UAE or call us at +971 4 2522966.

#ebara pump dealers #ebara pumps #ebara pump suppliers in uae #ebara pump middleast #ebara

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twiainsurancegroup · 2 months

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3d-labs-blog · 3 months

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Fea Dynamics Analysis

Fea Fatigue Analysis https://3d-labs.com/fea-services/ Comprehensive FEA Services for Enhanced Engineering Design and Analysis 3d-labs is an engineering consulting firm that provides full analysis using state-of-the-art FEA , CFD, and CAD/CAE tools. We help our clients reduce product development costs, decrease time-to-market , and improve product quality. We, offer not only reliable analysis results but also insight solutions to clients' projects….. We are from all sectors of the industry and have excellent analytical skills and knowledge. We have co-operation with universities, national laboratories, and other engineering firms, which enable us to address and solve clients' questions and problems simply and quickly. We solve a broad range of engineering analysis problems based on FEA techniques including stress analysis, fluid dynamics, kinematics, heat transfer, dynamics and vibration (seismic, harmonic), structural dynamics and electromagnetics. etc. Introduction Why Should we do Analysis Elastic Stress Analysis Method static Structural Analysis Engineering Data Geometry Model Setup Solution Results Fatigue Analysis Fatigue Tool Solution Results

#Fea Fatigue Analysis

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jayanthitbrc · 10 months

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Projected Boom in the Computer-Aided Engineering Market: On Track to Reach $12.67 Billion by 2027 at a CAGR of 9.2% || Altair Engineering Inc., Dassault Systèmes SE, ESI Group

The Computer Aided Engineering Global Market Report 2023, provides comprehensive information on the computer aided engineering market across 60+ geographies in the seven regions - Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East, Africa for the 27 major global industries. The report covers a ten year historic period – 2010-2021, and a ten year forecast period – 2023-2032. Learn More On The Computer Aided Engineering Market’s Growth:https://www.thebusinessresearchcompany.com/report/computer-aided-engineering-global-market-report As per The Business Research Company’s Computer Aided Engineering Global Market Report 2023, the global computer-aided engineering market size is expected to grow from $8.11 billion in 2022 to $8.90 billion in 2023 at a compound annual growth rate (CAGR) of 9.8%. The Russia-Ukraine war disrupted the chances of global economic recovery from the COVID-19 pandemic, at least in the short term. The war between these two countries has led to economic sanctions on multiple countries, a surge in commodity prices, and supply chain disruptions, causing inflation across goods and services and affecting many markets across the globe. The computer-aided engineering market size is expected to grow to $12.67 billion in 2027 at a CAGR of 9.2%. Get A Free Sample Of The Report (Includes Graphs And Tables):https://www.thebusinessresearchcompany.com/sample.aspx?id=7941&type=smp The computer aided engineering market is segmented: 1) By Type: Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), Multibody Dynamics, Optimization, and Simulation 2) By Deployment: On-Premise, Cloud-Based 3) By End-Use: Automotive, Defense and Aerospace, Electronics, Medical Devices, Industrial Equipment. Europe was the largest region in the computer aided engineering market in 2022. The table of contents in TBRC’s computer aided engineering market report includes:1. Executive Summary 2. Computer Aided Engineering Market Characteristics 3. Computer Aided Engineering Market Trends And Strategies 4. Computer Aided Engineering Market - Macro Economic Scenario 5. Computer Aided Engineering Market Size And Growth …….... 28. Key Mergers And Acquisitions In The Computer Aided Engineering Market 29. Computer Aided Engineering Market Future Outlook and Potential Analysis 30. Appendix Learn About Us: The Business Research Company is a market intelligence firm that pioneers in market, company, and consumer research. TBRC’s specialist consultants are located globally and are experts in a wide range of industries that include healthcare, manufacturing, financial services, chemicals, and technology, with 6500+ reports. The firm has offices located in the UK, the US, and India, along with a network of proficient researchers in 28 countries. Through the report businesses can gain a thorough understanding of the market’s size, growth rate, major drivers and leading players.

Contact Us: The Business Research Company Europe: +44 207 1930 708 Asia: +91 88972 63534 Americas: +1 315 623 0293 Email: [email protected] Follow Us On: LinkedIn: https://in.linkedin.com/company/the-business-research-company Twitter: https://twitter.com/tbrc_info Facebook: https://www.facebook.com/TheBusinessResearchCompany YouTube: https://www.youtube.com/channel/UC24_fI0rV8cR5DxlCpgmyFQ Blog: https://blog.tbrc.info/ Healthcare Blog: https://healthcareresearchreports.com/ Global Market Model: https://www.thebusinessresearchcompany.com/global-market-model

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marketinsightshare · 2 years

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#Simulation Software Market - Industry Analysis, Market Size, Share, Trends,Application Analysis, Growth and Forecast 2021 - 2026

Simulation Software Market Size is forecast to reach $20.3 billion by 2026, at a CAGR of 17.0% during 2021-2026. Adoption of simulation software in aerospace, defense and automobile industries with the development of modern aircraft, autonomous and electric vehicles boost the simulation software market growth. In addition to these, process simulation software is also used in designing or creating Internet of Things (IoT) devices and apps.

High adoption of simulation software for modeling and simulation in the development of industrial products is set to drive industry 4.0. Similarly, growing developments by various companies is analyzed to drive the market growth. In 2020, Desktop Metal had launched Live Sinter simulation software for powder metallurgy-based manufacturing processes. Further, entry of new players in developed and developing economies will further enhance the overall market demand for Simulation Software during the forecast period 2021-2026.

Report Coverage

The report: “Simulation Software Market – Forecast (2021-2026)”, by IndustryARC covers an in-depth analysis of the following segments of the Simulation Software market

By Deployment Mode : Cloud, On-Premises

By Type : Software (Finite Element Analysis, Computational Fluid Dynamics, Electromagnetic Waves and Others) Services (Design & Consulting, Support & Maintenance, E-Learning & Training, Research & Development)

By Vertical : Automobile, Aerospace & Defense, Electrical & Electronics, Industrial Manufacturing, Healthcare, Education & Research, Others.

By Geography: North America (U.S, Canada, Mexico), Europe (Germany, UK, France, Italy, Spain, Russia, Netherlands and Others), APAC(China, Japan India, SK, Australia, Indonesia and Others), South America(Brazil, Argentina, Chile, Colombia and others), and RoW (Middle East and Africa).

Key Takeaways

Cloud deployment is growing at a highest CAGR of 20.3% in the forecast period owing to its operational flexibility and real-time deployment ease to companies compared to on-premises deployment.

Simulation Software top 10 companies include Altair Engineering, Ansys, Autodesk, Bentley Systems, CPFD Software, Cybernet, Dassault Systems, Design Simulation Technologies, Mathworks, PTC, Siemens PLM Software among others.

Simulation Software Market, By Deployment Model, 2020 (%)

For More Details on This Report - Request for Sample

Simulation Software Market Segment Analysis - By Deployment

Cloud deployment is growing at a highest CAGR of 20.3% in the forecast period owing to its operational flexibility and real-time deployment ease to companies compared to on-premises deployment. It also offers numerous benefits, including reduced operational costs, simple deployment process, and higher scalability in terms of connected resources. Additionally, the cost-effective cloud-based solutions ease installation when compared to the on-premises solutions. The highest level of data security and reliability offered by the cloud deployment are increasing the share of this deployment in the forecast period.

Several companies are providing solutions related to this deployment. For instance SimScale is a full-cloud CAE simulation software that helps to perform CFD, FEA, and thermal simulations for CAD models in the cloud. Similarly, AnyLogi? Cloud is a cloud-based simulation tool that allows users to run simulation models such as Finite Element Analysis and Computational Fluid Dynamics online using just a web browser and share them. Hence these benefits are analysed to drive the market growth in the forecast period 2021-2026.

Simulation Software Market Segment Analysis - By Vertical

Automotive sector is expected to witness a highest CAGR of 21.2% the forecast period. Increasing focus on R&D activities and rapid technological changes owing to the changing government norms for vehicle safety are projected to drive the market. With increasing connectivity and digitalization, OEMs are focusing on improving cybersecurity over connected vehicles & devices, which is expected to drive the automotive simulation market for software such as Finite Element Analysis and Computational Fluid Dynamics. Along with cybersecurity, rapid infrastructure development and advancements in 5G technology companies such as Nvidia, IPG automotive and so on are collaborating with several global companies for advancements in these simulation software.

In 2019, Nvidia had partnered with Toyota for autonomous vehicle simulation platform drive constellation, the cloud-based platform. This platform would enable the self-driving car developers to run tests on virtual, rather than real roads. In 2018, IPG Automotive signed a partnership agreement with Transpolis SAS to develop innovative solutions in the field of large-scale simulation. Hence these factors are anticipated to fuel the growth of the simulation software market in the forecast period 2021-2026.

Simulation Software Market Segment Analysis - By Geography

Simulation Software market in North America region held significant market share of 34% in the forecast period. Early adoption of advanced technologies in aerospace, defense and other has been increasing the demand for simulation software. In addition, the governments in the North American region are constantly focusing on innovation and investment for a greener work environment. The regulations associated with the eco-friendly work environment are becoming stringent in the region and as a result, companies are adopting simulators to test product viability before manufacturing.

In U.S. strict guidelines imposed by the Federal Aviation Administration (FAA) and Federal Aviation Regulations (FARs) regarding use of simulators for training purpose. According to new FAR regulations, Air carriers must compulsorily develop training programs using simulators that meet the upgraded requirements. Stringent regulations as such will drive the usage of simulators thereby driving simulation software in this region. According to U.S. Department of Defense, by 2022, U.S Military had committed to invest more than $11 billion for virtual, augmented and mixed reality training systems and simulator. Hence these factors drive the market growth in the forecast period 2021-2026.

Simulation Software Market Drivers

Growing advancements in simulation software

Simulation software companies are strengthening their position through mergers & acquisitions and continuously investing in research and development (R&D) activities to come up with solutions to cater to the changing requirements of customers. In addition companies such as Siemens, Rockwell, Ansys, and so on are planning to invest in advanced technologies such as artificial intelligence with a target to provide cost competitive Finite Element Analysis and Computational Fluid Dynamics products in the market in the forecast period.

In 2020 Ansys Inc. entered into a definitive agreement to acquire Lumerical Inc., which is a leading developer of photonic design and simulation tools. The acquisition will add a wide range of photonics products to the Ansys Multiphysics portfolio, providing customers with a full set of solutions to solve its next-generation product challenges.

In 2019, Altair Engineering Inc. launched a new manufacturing simulation solution for additive manufacturing, Inspire Print3D. The solution is aimed explicitly at selective laser melting (SLM).

In 2020, Kumux has launched the 2.0 version of its spectral simulation software, which allows the creation of differential lighting, beneficial to people’s health and plant growth.

In 2018, Simufact Engineering, an MSC Software company and expert in manufacturing process simulation, had launched Simufact Additive software solution for the simulation of metal additive manufacturing processes. Hence these advancements are analyzed to drive the market growth in the forecast period 2021-2026.

Growing adoption of simulation software among aerospace & defense

The aerospace & defense industry has been one of the major end users of simulation as they use modelling and simulation for numerous purposes including, training of individual soldiers, conducting joint training operations, formulating operational plans, developing doctrine and tactics, and analyzing alternative force structures, Finite Element Analysis and Computational Fluid Dynamics.

The technology fulfills critical defense needs of command, control, and communications; manpower, personnel, and training; computing and software; electronics; and manufacturing technology. These defense models and simulations vary in a broad range from components of large weapons systems through system-level to simulations of missions and battles, and so forth. Such significant applications are the major factors driving the growth of the global market in these industries.

Simulation Software Market Challenges

Data security is the major challenge for simulation software

One of the major challenges in Simulation Software is data security. Investment in data security to avoid simulation attacks is one of the major challenges faced by the simulation software companies. Simulated attacks might send fake phishing attacks to employees or attempt cyber-attack on a company’s web application firewall. High investment into data security is the major challenge companies which is hampering the growth of the market. However, the introduction of many cybersecurity tools at affordable prices is set to invest in simulation software, thereby driving the market growth.

Simulation Software Market Landscape

Software launches, acquisitions, Partnerships and R&D activities are key strategies adopted by players in the Simulation Software market. In 2020, the market of Simulation Software industry outlook has been fragmented by several companies. Simulation Software top 10 companies include Altair Engineering, Ansys, Autodesk, Bentley Systems, CPFD Software, Cybernet, Dassault Systems, Design Simulation Technologies, Mathworks, PTC, Siemens PLM Software among others.

Acquisitions/Software Launches

In 2020, PTC, Inc. launched a 3D computer-aided design software named as Creo 7.0. This software has the new abilities to put the power of artificial intelligence at the fingertips of the designers, hence making the simulation a unified part of the daily work.

#Simulation Software Market share #Simulation Software Market size #Simulation Software Market forecast

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trioticzz · 3 years

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Graphler helps in developing 3D model, realistic renders and product animation services of the product with best in class quality. With a prefer balance of art and technical team – we provide the solution to convert the idea in best communicable story board.

#Engineering Animation Services #Product Animation Services

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enteknograte · 4 years

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FEA & CFD Based Design and Optimization

Enteknograte use advanced CAE software with special features for mixing the best of both FEA tools and CFD solvers: CFD codes such as Ansys Fluent, StarCCM+ for Combustion and flows simulation and FEA based Codes such as ABAQUS, AVL Excite, LS-Dyna and the industry-leading fatigue Simulation technology such as Simulia FE-SAFE, Ansys Ncode Design Life to calculate fatigue life of Welding, Composite, Vibration, Crack growth, Thermo-mechanical fatigue and MSC Actran and ESI VA One for Acoustics.

Enteknograte is a world leader in engineering services, with teams comprised of top talent in the key engineering disciplines of Mechanical Engineering, Electrical Engineering, Manufacturing Engineering, Power Delivery Engineering and Embedded Systems. With a deep passion for learning, creating and improving how things work, our engineers combine industry-specific expertise, deep experience and unique insights to ensure we provide the right engineering services for your business

Advanced FEA and CFD

Training: FEA & CFD softwares ( Abaqus, Ansys, Nastran, Fluent, Siemens Star-ccm+, Openfoam)

Thermal Analysis: CFD and FEA

Thermal Analysis: CFD and FEA Based Simulation Enteknograte’s Engineering team with efficient utilizing real world transient simulation with FEA – CFD coupling if needed, with

Multiphase Flows Analysis

Multi-Phase Flows CFD Analysis Multi-Phases flows involve combinations of solids, liquids and gases which interact. Computational Fluid Dynamics (CFD) is used to accurately predict the

Multiobjective Optimization

Multiobjective optimization Multiobjective optimization involves minimizing or maximizing multiple objective functions subject to a set of constraints. Example problems include analyzing design tradeoffs, selecting optimal

MultiObjective Design and Optimization of TurboMachinery: Coupled CFD and FEA

MultiObjective Design and Optimization of Turbomachinery: Coupled CFD and FEA Optimizing the simulation driven design of turbomachinery such as compressors, turbines, pumps, blowers, turbochargers, turbopumps,

MultiBody Dynamics

Coupling of Multibody Dynamics and FEA for Real World Simulation Advanced multibody dynamics analysis enable our engineers to simulate and test virtual prototypes of mechanical

Metal Forming Simulation: FEA Design and Optimization

Metal Forming Simulation: FEA Based Design and Optimization FEA (Finite Element Analysis) in Metal Forming Using advanced Metal Forming Simulation methodology and FEA tools such

Medical Device

FEA and CFD based Simulation and Design for Medical and Biomedical Applications FEA and CFD based Simulation design and analysis is playing an increasingly significant

Mathematical Simulation and Development

Mathematical Simulation and Development: CFD and FEA based Fortran, C++, Matlab and Python Programming Calling upon our wide base of in-house capabilities covering strategic and

Materials & Chemical Processing

Materials & Chemical Processing Simulation and Design: Coupled CFD, FEA and 1D-System Modeling Enteknograte’s engineering team CFD and FEA solutions for the Materials & Chemical

Marine and Shipbuilding Industry: FEA and CFD based Design

FEA and CFD based Design and Optimization for Marine and Shipbuilding Industry From the design and manufacture of small recreational crafts and Yachts to the

Industrial Equipment and Rotating Machinery

Industrial Equipment and Rotating Machinery FEA and CFD based Design and Optimization Enteknograte’s FEA and CFD based Simulation Design for manufacturing solution helps our customers

Hydrodynamics CFD simulation, Coupled with FEA for FSI Analysis of Marine and offshore structures

Hydrodynamics CFD simulation, Coupled with FEA for FSI Analysis of Marine and offshore structures Hydrodynamics is a common application of CFD and a main core

Fracture and Damage Mechanics: Advanced FEA for Special Material

Fracture and Damage Simulation: Advanced constitutive Equation for Materials behavior in special loading condition In materials science, fracture toughness refers to the ability of a

Fluid-Strucure Interaction (FSI)

Fluid Structure Interaction (FSI) Fluid Structure Interaction (FSI) calculations allow the mutual interaction between a flowing fluid and adjacent bodies to be calculated. This is necessary since

Finite Element Simulation of Crash Test

Finite Element Simulation of Crash Test and Crashworthiness with LS-Dyna, Abaqus and PAM-CRASH Many real-world engineering situations involve severe loads applied over very brief time

FEA Welding Simulation: Thermal-Stress Multiphysics

Finite Element Welding Simulation: RSW, FSW, Arc, Electron and Laser Beam Welding Enteknograte engineers simulate the Welding with innovative CAE and virtual prototyping available in

FEA Based Composite Material Simulation and Design

FEA Based Composite Material Design and Optimization: Abaqus, Ansys, Matlab and LS-DYNA Finite Element Method and in general view, Simulation Driven Design is an efficient

FEA and CFD Based Simulation and Design of Casting

Finite Element and CFD Based Simulation of Casting Using Sophisticated FEA and CFD technologies, Enteknograte Engineers can predict deformations and residual stresses and can also

FEA / CFD for Aerospace: Combustion, Acoustics and Vibration

FEA and CFD Simulation for Aerospace Structures: Combustion, Acoustics, Fatigue and Vibration The Aerospace industry has increasingly become a more competitive market. Suppliers require integrated

Fatigue Simulation

Finite Element Analysis of Durability and Fatigue Life: Ansys Ncode, Simulia FE-Safe The demand for simulation of fatigue and durability is especially strong. Durability often

Energy and Power

FEA and CFD based Simulation Design to Improve Productivity and Enhance Safety in Energy and Power Industry: Energy industry faces a number of stringent challenges

Combustion Simulation

CFD Simulation of Reacting Flows and Combustion: Engine and Gas Turbine Knowledge of the underlying combustion chemistry and physics enables designers of gas turbines, boilers

Civil Engineering

CFD and FEA in Civil Engineering: Earthquake, Tunnel, Dam and Geotechnical Multiphysics Simulation Enteknograte, offer a wide range of consulting services based on many years

CFD Thermal Analysis

CFD Heat Transfer Analysis: CHT, one-way FSI and two way thermo-mechanical FSI The management of thermal loads and heat transfer is a critical factor in

CFD and FEA Multiphysics Simulation

Understand all the thermal and fluid elements at work in your next project. Allow our experienced group of engineers to couple TAITherm’s transient thermal analysis

Automotive Engineering

Automotive Engineering: Powertrain Component Development, NVH, Combustion and Thermal simulation Simulation and analysis of complex systems is at the heart of the design process and

Aerodynamics Simulation: Coupling CFD with MBD and FEA

Aerodynamics Simulation: Coupling CFD with MBD, FEA and 1D-System Simulation Aerodynamics is a common application of CFD and one of the Enteknograte team core areas

Additive Manufacturing process FEA simulation

Additive Manufacturing: FEA Based Design and Optimization with Abaqus, ANSYS and MSC Nastran Additive manufacturing, also known as 3D printing, is a method of manufacturing

Acoustics and Vibration: FEA/CFD for VibroAcoustics Analysis

Acoustics and Vibration: FEA and CFD for VibroAcoustics and NVH Analysis Noise and vibration analysis is becoming increasingly important in virtually every industry. The need

About Enteknograte

Advanced FEA & CFD Enteknograte Where Scientific computing meets, Complicated Industrial needs. About us. Enteknograte Enteknograte is a virtual laboratory supporting Simulation-Based Design and Engineering

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businesssinfo · 27 days

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Design and Validation of TEMA S Class Heat Exchanger

Our client is a leading manufacturer and supplier of Shell & Tube, Plate type Heat exchangers, Boilers and Pressure vessels. The client’s requirement is to design ’Floating Head Heat Exchanger’ in compliance with ASME Sec VIII and TEMA class S specifications.

What we Delivered:

3D CAD Model as per Client’s requirement/specifications

General Arrangement Drawings

Fabrication drawings

Machine drawings of various components

Parts drawings of various components

Detailed Bill of materials

CFD simulations to ensure customer’s design criteria is met

FE simulations to ensure structural integrity during lifting, transportation.

Design Specifications:

The Floating Head Heat Exchanger is designed for:

Pressure rating: Shell side: 38 kg/sq. cm, and Tube side: 30 kg/sq. cm

Temperature rating: Shell side: 150 °C and Tube side: 110 °C

Fluid capacity, Shell side: 2.8 cu.m., and Tube side: 1.8 cu.m

No. of passes: shell side (cross flow) and tube side (10).

Design wind reluctance: 50 m/s as per IS 875 Part 3

Seismic design code: IS: 1893-2005

Insulation thickness is 15/50 mm.

Gross weight of Heat exchanger (empty): 13 tons

Through simulations, we were able to provide nozzle loads, wind seismic data, bolt torque and forces, and welding stresses and forces.

Detailed drawings were provided to Davit for cover, insulation clatters, tube bundles with tube-to-tube sheet joints, tube layouts, baffle layouts, tie roads, girth flanges, passage partitions, gaskets, hold points, name plates, etc.

Finally, all design information, like native 3D CAD data, drawings and simulation reports, was submitted to the customer.

CFD Analysis validation:

CFD simulations were performed to understand the velocity and temperature distribution on Shell and tube side. The heat exchanger was simulated with operating temperature and pressure. The intensity of turbulence, heat transfer rate was studied and the results are reported to ensure that the design is in compliance with requirement and efficiency of the system is achieved.

The best way to obtain the accurate information is to consult an experienced CFD Consulting Services or Structural Analysis Services provider.

#3DCADModel #CFDConsultingServices #CFDsimulations #Fabricationdrawings #FEsimulations #HEATEXCHANGER

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atsthermal · 4 years

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Case Study: Thermal Comparison of Copper and Aluminum Heat Sinks

Advanced Thermal Solutions, Inc. (ATS) engineers were tasked by a client to find a more cost-effective and lighter solution for a custom-designed copper heat sink that dissipated heat from four components on a PCB. ATS engineers compared the thermal performance of the copper heat sink to custom aluminum heat sinks embedded with heat pipes.

ATS engineers worked on a comparison of a copper heat sink with an aluminum heat sink that had embedded heat pipes running underneath the components. Analysis showed that the aluminum heat sink nearly matched the thermal performance of the copper and was within the margin required by the client. (Advanced Thermal Solutions, Inc.)

Using analytical modeling and CFD simulations, the ATS engineers determined that switching to an aluminum heat sink with heat pipes that run underneath the components yielded case temperatures that were greater than 4.35%, on average, of those achieved with the copper heat sink. The largest difference between the two heat sinks was 9.2°C, over a single component.

• Challenge: The client wanted a redesign of a custom copper heat sink to an equivalent or better aluminum heat sink with embedded copper heat pipes.

• Chips/Components: Two Inphi (formerly ClariPhy) Lightspeed-II CL20010 DSPs at 96 watts and two Xilinx 100G Gearboxes at 40 watts each.

• Analysis: Analytical modeling and CFD simulations determined the junction temperatures between the four components when covered by a copper heat sink (Design 1), by an aluminum heat sink with heat pipes that stop in front of the components (Design 2), and by an aluminum heat sink with heat pipes that run underneath the components (Design 3). The analysis demonstrated the difference between the heat sink designs in relation to thermal performance.

• Test Data: CFD analysis showed an average component case temperature of 158.8°C with the original copper heat sink design, 158.3°C with Design 2, and 152°C with Design 3. The average difference in temperature between Design 1 and Design 2 was 0.5°C and the average temperature difference between Design 1 and Design 3 was 6.8°C.

Here is a CFD simulation from the top of the aluminum heat sink with the air hidden, showing the temperature gradient through the heat sink. (Advanced Thermal Solutions, Inc.)

• Solution: The client was shown that aluminum heat sinks with heat pipes provided nearly the same thermal performance as the original copper heat sink design and at much lower cost and weight. The component junction temperature differences between Design 1 and Design 3 were well within the margin set by the client.

o The simulated air velocity is lower and the airflow cross section is larger than in the actual application, meaning absolute temperatures are higher than the customer has seen in their testing.

• Net Result: Despite using conservative thermal conductivity calculations, aluminum heat sinks with heat pipes were shown to be a more cost-effective solution for achieving the client’s thermal needs than copper.

CLICK HERE FOR A TECHNICAL DISCUSSION OF THIS PROJECT.

For more information about Advanced Thermal Solutions, Inc. thermal management consulting and design services, visit www.qats.com or contact ATS at 781.769.2800 or [email protected].

#engineering #mechanicalengineering #science #heat #thermodynamics

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vias3d · 3 years

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Validating Vehicle Designs with FEA Analysis in Abaqus - VIAS3D

The automotive industry needs to design and develop new car models faster than ever before because of increasing competition and customer demand. In the automotive industry, predictive technology such as Finite Element Analysis (FEA) has become the must-have tool to predict the performance of a car during the early design stage. The benefits of predictive tools include: Reducing product development time Reducing the number of design cycles Eliminating a large portion of physical testing necessary Unified FEA Abaqus workflow combines different engineering disciplines, like thermal, structural, vibration, acoustic, fluid structural interaction, and design optimization. Overall a car design should be safe, comfortable, and durable which all contribute to the performance and success of the design. Top Applications of FEA Technology for the Automotive Industry Crashworthiness: Crashworthiness is the ability to protect its occupants during an impact/crash of a vehicle. Airbags, brakes, tires as well as the structure of the car play very important roles during a crash event to deaccelerate or absorb energy from the crash and protect the passenger. Passive and active safety systems in the car can be accounted for/modeled in FEA to evaluate the accurate performance of a car during a crash. Noise and Vibration: Characteristics of noise and vibration in a car determines the comfort of a passenger while traveling in a car. Natural frequency, steady-state dynamics, transient dynamics, random response analysis can be studied in Abaqus to characterize the noise and vibration performance of the car accurately. Strength & Durability: Durability engineering solutions help deliver lighter, stronger, and more durable designs. Lighter design leads to a more efficient vehicle, stronger and more durable design avoids any premature failure and warranty issues. Best-in-class companies are taking advantage of Abaqus Unified FEA to consolidate their processes and tools, reduce costs and inefficiencies, and gain a competitive advantage. It considers real-life scenarios to predict what is going to happen when the product is used in reality. It tells you whether a product will break, wear out, or survive for the designed life. VIAS, in partnership with Dassault Systemes, can be your facilitator in this transformation process – be it consultancy, sales, and support, or training – we have it all. With a dedicated team of Doctorates and master’s having strong expertise in Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), Electromagnetics (EMAG), data analytics, and domain knowledge of various engineering streams, we can handle simple to complex workflows. We have strong expertise in dealing with both mitigation and life extension achieved by following the procedures given for fitness-for-service (FFS) in ASME FFS-1/API-579 within an integrity or risk reliability management framework. Contact Us: 1400 Broadfield Blvd #325 Houston, TX 77084 Phone: +1 (832) 301-0881 E-mail: [email protected]

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digital-indian · 3 years

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Vias Energy

VIAS ENERGY, PROCESS & UTILITIES

Virtual Integrated Analytics Solutions Inc. (VIAS) is an authorized reseller of Dassault Systèmes SIMULIA product. VIAS provides integrated, innovative, and cost-effective engineering and software solutions and consultancy services in Energy, Process and Utilities (EPU) Sector.

SIMULIA solutions in EPU industry allow you to accurately predict complex real-world behavior of large structures and equipment, perform linear and non-linear static/dynamic analysis, include effects due to thermal loads and corrosion/degradation, simulate vibrations, fracture, and failure, as well as study the interaction of fluids, gasses and structures.

Our partner RMC has software capabilities with a powerful interface to SIMULIA Abaqus for modeling piping systems using Pipe Calculation System (PCS). This software is a state-of-the-art technology for Oil and Gas, Chemical, and Petrochemical industries.

Our partner Wolf Star Technologies developed True-Load as a unique software solution to support EPU sector. True-Load transforms any structure into its own load transducer, creates reconstructed loads with remarkable accuracy, and match FEA strains within 2% of measured values.

SIMULIA Extended Product Suite has Fe-Safe, Tosca and Isight tools, Computational Fluid Dynamics (CFD), and Fluid Structure Interaction (FSI) capabilities which can be used in Energy, Process & Utilities as described in the table below.

To learn more in detail about how we can help you in your area of work, get in touch with us at [email protected] or visit www.vias3d.com

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3d-labs-blog · 4 months

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fea linear/nonlinear analysis In UK

thermal stress fea analysis services In UK Basics of Finite Element Analysis In UK https://3d-labs.com/fea-services/

3d-labs is an engineering consulting firm that provides full analysis using state-of-the-art FEA , CFD, and CAD/CAE tools. We help our clients reduce product development costs, decrease time-to-market , and improve product quality. We, offer not only reliable analysis results but also insight solutions to clients' projects….. We are from all sectors of the industry and have excellent analytical skills and knowledge. We have co-operation with universities, national laboratories, and other engineering firms, which enable us to address and solve clients' questions and problems simply and quickly. We solve a broad range of engineering analysis problems based on FEA techniques including stress analysis, fluid dynamics, kinematics, heat transfer, dynamics and vibration (seismic, harmonic), structural dynamics and electromagnetics. etc. +447452769371 Introduction Why Should we do Analysis Elastic Stress Analysis Method static Structural Analysis Engineering Data Geometry Model Setup Solution Results Fatigue Analysis Fatigue Tool Solution Results

#thermal stress fea analysis services In UK

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deindeengineeringservices-blog · 3 years

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#Deinde #offers #HVAC #consulting #services #primarily for #car #park #CFD services in #India and Globally. This also includes ducted and ductless (jet fan for car park ventilation) simulations. Our #CFD #experts provide specialized simulation services in tunnel ventilation CFD in India and globally.We have an experienced CFD application analyst team providing CFD simulation & #modeling services in the core application areas of #aerodynamics, #building #ventilation, #data #centers, #filtration, #flow #control, heat exchangers, heating / refrigeration.Learn more at deinde.us

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frm-cfa · 3 years

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Financial Risk Management: Everything You Need to Know

Where there is a finance enterprise, there is financial risk. Therefore, financial risk management is an essential aspect of running a successful financial firm. It is a skill set that’s in high demand, but what exactly is financial risk management? What does it entail? What kind of careers does it offer? This article tells you everything you need to know, including what it is, the techniques used, what is required, and careers in the field.

Best FRM Books

What is Financial Risk Management?

Financial risk management is a finance practice that uses financial instruments and data analysis to manage exposure to operational, credit, market, foreign exchange, shape, volatility, liquidity, inflation, business, legal, reputational, sector, and other types of risk. The purpose of this practice is to identify the sources of risk, measure it, and develop plans to address it.

Most major retail, commercial, and investment banks have financial risk management practices or departments. However, as you can imagine, it is not limited to banking. You can find financial risk management at nearly every major asset management firm, hedge fund, consulting firm, and regulator in the world.

The long laundry list of risks from the Wikipedia definition aside, in the world of finance, financial risk management is usually applied to four types of risk:

Market risk: This is the possibility of incurring large losses from adverse changes in financial asset prices, such as stock prices or interest rates.

Credit risk: This is the risk that borrowers will not repay their debt obligations in full when they are due.

Funding (or liquidity) risk: This is the risk that a firm cannot obtain the funds necessary to meet its financial obligations, such as short-term loan commitments.

Operational risk: This is the risk of monetary loss resulting from inadequate or failed internal processes, people, and systems or from external events.

Financial Risk Management Techniques

The techniques used in financial risk management differ based on the kind of risk involved. For market risk management, statistical models are used to forecast the probability and extent of significant change in market prices. Called “value-at-risk” models, they are used to set capital against potential losses. Firms also use stress tests that examine the impact of large hypothetical market movements on their portfolio values.

Managing credit risk starts by setting different levels of individual borrower, industry sector, and geographic area credit limits, all of which are usually based on internal credit ratings. Firms also use quantitative models to measure and manage credit risk.

To manage funding risk, banks and firms diversify their funding sources, hold liquid assets, and make contingency plans, such as a backup line of credit. They set funding goals as benchmarks to measure their current funding levels and take action when they are below certain thresholds.

Operational risk management requires studying how the bank, firm, or company is run, creating a comprehensive view of the business, and addressing anything that it appears might do the bank, firm, or company damage in the future. The steps involved are risk assessment, measurement and mitigation, and monitoring and reporting.

What Are the Requirements for Financial Risk Management?

Here are the requirements for financial risk management, including education, skills, and qualities:

College and graduate degrees: A career in this risk field requires a bachelor’s degree, but a graduate degree is preferred, especially an MBA or a doctorate in finance or economics. A PhD in statistics or physics is a viable alternative. Many of those in the field also earn the FRM® designation, a certification offered by the Global Association of Risk Professionals (GARP).

Financial acumen: Strong financial knowledge is required. Also critical is actual experience working with numbers in a variety of situations, from contract for difference (CFD) trading to translating objective concepts into measurable items.

An analytical and strategic mind: Because of all the data involved, anyone who works in the field should be analytical by gathering information, interpreting it, spotting risk and opportunities, and identifying appropriate strategies for managing financial risk.

Technology capabilities: Anyone in this field should be able to use software and other technological solutions, such as Risk (VaR) to Risk Scenario tools. In addition, it is important to keep up with the latest technological advancements in financial risk management.

Excellent communication skills: Those who work in financial risk management must be able to translate complex financial risk, products, and processes into a language the front office, management, and the board can understand. For this to work well, excellent interpersonal and general communication skills are a necessity.

Financial Risk Management Careers

Financial risk management careers are most often found in financial institutions such as banks, financial services companies, brokerages, and asset management firms. However, there are opportunities in other types of business, as well, such as insurance, software, oil and gas, and publishing companies. The following job roles are the most common:

Risk analyst or risk manager: These financial risk professionals use analytical skills and knowledge of international business and currency markets to examine investment portfolios and analyze the risk involved. They project potential losses and recommend ways to limit risk through diversification, currency exchanges, and other investment strategies.

Credit risk analyst: These analysts review and assess the financial history of individuals or companies to determine if they are a good candidate for a loan. They evaluate financial data, such as balance sheets and income statements, to determine the level of default risk and calculate financial ratios to help lenders make comparisons.

Market risk analyst: These financial risk management practitioners use knowledge of an industry or sector to research market trends and provide companies or investors with a comprehensive market assessment. The company or investor then uses this information to make decisions about investments and future ventures.

Operational risk manager: These risk managers investigate how an organization or business is run and identify potential sources of financial, legal, and reputational damage. The goal is to mitigate as much risk as possible and offset financial losses.

Why Consider a Future in Financial Risk Management?

The future is bright in financial risk management. It is a respected profession because financial risk management professionals are critical to the functioning of a business. As a result, the salaries for these positions are promising. According to Pay Scale, they can range from $55,000 to $150,000 annually. Its popularity as a career is also on the rise. Positions in the field are expected to increase at a rate of 7% over the next decade.

How to Get Started in a Financial Risk Management Career

As noted in the section about the requirements for a financial risk management career, you should be focused on finance or a related field for your bachelor’s degree and have your eye on master’s or PhD. Earning the FRM designation can also help you secure a position in this field because it demonstrates to potential employers that you have a mastery of the important concepts in risk management.

#FRM #FRM Books #FRM Resources

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