Structural Design Engineering Calculations Consultancy
SEAC is comfortable in Structural Design Engineering Calculations in any material, be it steel, wood or R.C.C. Structural experts and technicians at SEAC analyze the material used, decided on its strengths and weaknesses and accordingly come up with the most accurate Structural Design Engineering Calculations. SEAC also produces graphical representation of the bending moments are delivered by means of bending moment diagrams using STAAD and other such software.
The following is an exhaustive list of the services SEAC provides with respect to Structural Design Engineering Calculations
- Structural Design Engineering Calculations of bending moments
- Structural Design Engineering Calculations of torque
- Structural Design Engineering Calculations of stresses
- Structural Design Engineering Calculations of shear
- Calculations of wind load and pressure
- Calculations related to seismic movement
As a Structural Design Engineering Calculations Consultancy, our Team has the caliber and in depth knowledge of considering all the environmental factors such as rain, wind and snow and natural disasters such as earthquake, hailstorms, etc. while doing Structural Design Engineering Calculations of your building. SEAC makes sure that the above mentioned factors are well taken care of when we perform the complicated procedure of Structural design analysis and Engineering Calculations of your building.
Our Structural Design Engineering Calculations Consultancy for Calculations include a detailed analysis of the kind of load transfers that the building possesses, (trabeated – beam and column, arched, load bearing, frame Structural system, cantilevers, single supported, doubly supported, etc.) and then accordingly performs Engineering Design Calculations for the same. SEAC performs Structural Calculations especially for foundations (Pile foundation – Structural Design Engineering Calculations related to size of the pile cap, number of piles, Raft foundation, open foundation, depth of the foundation, size and number of footings, size of excavation, etc.)
CFD Simulation in HVAC
The HVAC industry is being revolutionized by computational fluid dynamics (CFD). Above all, it makes investigating airflow trends, temperature distribution, and heat transfer a breeze. It can highlight where heat is escaping, ventilation is inadequate, or cold areas are present, for example. Engineers and designers have more transparency over an entire HVAC system when they use knowledge from a collaborative CFD simulation, where several parties can enter information. Any design can be entered and tested even before the physical space exists. HVAC experts may make decisions based on reliable data and simulation results, whether in the early stages of design or examining an existing building for improvement potential. Tests are conducted virtually, and the prices and resources required are far cheaper than those required for physical analysis.
While CFD is not a newcomer to the HVAC industry, as engineers have been using it for many years, the method it is given is evolving. Previously, similar capabilities were only available as heavy, rigid hardware programs, frequently prohibitively expensive. Leading organizations, such as ANSYS Fluent software, now offer CFD capabilities to younger, smaller, or less tech-oriented businesses through an online service.
CFD on Simulation of Heating and Cooling Systems of Various Buildings
When correctly implemented, natural ventilation is an essential and cost-effective approach that improves indoor air quality by lowering pollutant concentrations. Furthermore, it decreases fatality rates due to breathing issues commonly caused by poor indoor air quality. Finally, it enhances space thermal comfort while lowering the energy used by air conditioning systems.
CFD models have grown in popularity as a tool for estimating ventilation performance. The answer includes detailed information on air velocity, pressure, and temperature distribution. Despite the simulation studies’ simplifications, the CFD analyses’ results are usually an accurate representation of a real-life system. CFD software is a powerful tool in engineering research because of its flexibility and cost-effectiveness.
While CFD is not a newcomer to the HVAC industry, as engineers have been using it for many years, the method it is given is evolving. Previously, similar capabilities were only available as heavy, rigid hardware programs, frequently prohibitively expensive. Leading organizations, such as ANSYS Fluent software, now offer CFD capabilities to younger, smaller, or less tech-oriented businesses through an online service.
A blower is a specific tool used to blow high-pressure air, which typically has uses like dust-cleaning etc. A blower, for instance, is used to clean computer hardware and components. With its rotational motion, the device’s center motor generates significant air pressure, which is then directed out of the outlet portion of the device. Centrifugal blowers were used in the creation of this modeling. The centrifugal blower may take in air from its center, and this airflow then enters the impellers, which are in the shape of fin discs located in the center. The airflow rotates as a result of the blades’ rapid circular action.
The air pressure rises due to the centrifugal force, which also accelerates the airflow. Finally, a duct on the blower’s outside body directs this high-pressure air to the outside environment.
Early on in the design process, CFD can analyze several CAD models, decrease the need for physical prototypes and costly testing, and optimize the design for maximum performance.
While CFD is not a newcomer to the HVAC industry, as engineers have been using it for many years, the method it is given is evolving. Previously, similar capabilities were only available as heavy, rigid hardware programs, frequently prohibitively expensive. Leading organizations, such as ANSYS Fluent software, now offer CFD capabilities to younger, smaller, or less tech-oriented businesses through an online service.
CFD for Generators
Were done to identify the hot spots, recirculation and the natural heat transfer
coefficient for the existing model.
Were made to determine the sources of heat and the priority to provide high rate
and low rate of cooling which would enable optimized efficient cooling module with low energy utilization.
Were provided with variety of profile parameters and were modified to achieve easy fluid
movement with least aerodynamic noise and reduced noise escape.
profiles and positions were iterated to provide reducing the noise level inside the shelter and which were also maintained not to provide space for thermal stagnation.
Were calculated to identify the best optimized pattern of
iterations. Fans were placed with optimized position and pressure drops to avert hot spots and improve ACPH.
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Pressure Vessel Design
Data Collection
Graphics
Analysis Options
Outputs and Reports
Materials and Codes
Application areas
Data Collection
PV Elite makes defining pressure boundary conditions for vessels and exchangers easy, even for load sets that require significant data input. PV Elite streamlines data entry by breaking the input down into sensible subsets. Help on any input item is only a keystroke away.
Graphics
PV Elite’s graphical representation of analysis models helps ensure confidence in the input and results. With PV Elite, analysis models can be viewed and manipulated with complete ease.
Analysis Options
PV Elite performs calculations in accordance with ASME Section VIII Divisions 1 & 2, PD 5500 and EN 13445. Rules from API579 (Fitness for Service) are also included for evaluating the current state and remaining life of existing vessels.
Outputs and Reports
To simplify inspection requirements, PV Elite lists the most important equations such as required thickness and maximum allowable working pressure (MAWP) and also groups results by type (e.g. internal pressure, external pressure, bending stress, nozzles and flanges). Overall results are summarized where the element or detail controlling the overall vessel MAWP is identified.
Materials and Codes
PV Elite is a global package with international code rules plus extensive region-specific content. Vessel material definitions, piping and steel component data, local wind loads and local seismic loads of many regional markets are all included.
- Vessel Design and Analysis • Exchanger Design and Analysis • Tubesheet Design and Analysis • Rectangular and Non-Circular Vessel Analysis • Individual Component Analysis • Cutting-edge Graphics • Design Tools and Wizards • Comprehensive Error Checking • Saddle, Leg, and Skirt Design • Analysis for Horizontal Shipping of Vertical Vessels • User-definable Reports • Wind Analysis • Seismic Analysis • International Vessel Codes • Extensive Material Databases • Steel Databases and Modeling
Application areas
- Beverage
- Brewing
- Chemical
- Equipment
- Food
- Offshore
- Petrochemical
- Pharmaceutical
- Piping
- Power
- Process and Plant Design
- Shipbuilding
- Water Treatment
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Pipe Support Design
Piping supports and restraints are an integral part of all engineering piping system. Supports and restraints are provided to carry the deadweight of the pipe, the fluid medium, any inline valves, instruments, insulation, etc.
- Pipe stress analysis
- Steel structure calculation and documentation
- Evaluation of structural Connections
The proper functional integration of pipe supports into the existing piping and plant concept has a decisive influence on the long-term behaviour of the pipe systems. Support design should therefore be given the same care and attention as the piping itself.
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The Syed Engineering & Acoustics Consultancy LLC provides services to all seven emirates of the UAE are Abu Dhabi, Dubai, Sharjah, Ajman, Umm Al-Quwain, Ras Al Khaimah, and Fujairah with Saudi Arabia.