Brochure - MatsyaTeknik
Transcription
Brochure - MatsyaTeknik
Regd. Office: Plot No: 31, Huda Sai Nagar Colony, Vanastalipuram, Hyderabad. Pin: 500070 IT PAN: AAZFM3960C Website: www.matsyateknik.com MatsyaTeknik Engineering Solutions Matsyateknik is a thought of first generation CFD engineer to execute classroom theory into practical real time application, Matsyateknik is an initiative of becoming a global company which can provide Engineering solutions to the leading organizations. Matsya (Fish in Sanskrit) was the first Avatar of Vishnu in Hinduism. The great floods finds mention in Hindu mythology texts like the Satapatha Brahamana, where in the Matsya Avatar takes place to save the pious and the first man, Manu and advices him to build a giant boat. Same like Matsya saved the first man in world Manu, Matsyateknik will also endeavor in providing the best possible Engineering solution to the world. Teknik means Technology, using latest available technology Matsyateknik will help industries to build better safer and superior environment for a newer generation. Represents ΙΧΘΥΣ (Ichthys) is an acronym for "Ίησοῦς Χριστός, Θεοῦ Υἱός, Σωτήρ", (Iēsous Christos, Theou Yios, Sōtēr), which translates into English as "Jesus Christ, God's Son, Savior". The basic aim of establishing Matsyateknik is to provide Engineering solutions to leading organizations which can be useful for human beings and hence make their life secure and protected. The case studies/projects concluded by Matsyateknik till now strictly follow this principle. Matsya (Sanskrit: म य) Teknik (Swedish: Technology) (Koine Greek: Fish) Regd. Office: Plot No: 31, Huda Sai Nagar Colony, Vanastalipuram, Hyderabad. Pin: 500070 IT PAN: AAZFM3960C Website: www.matsyateknik.com Computational Fluid Dynamics Computational Fluid Dynamics or CFD Consulting Services can be applied to a diverse spectrum of analysis. Fluid Dynamics is the science of fluid motion which can be explained by Navier-Stokes equations. While basically relying on the solution of the Navier-Stokes equations, the applications of computational fluid dynamics vary widely. At Matsyateknik, we have worked in a CFD consulting role to solve problems for a range of different applications through CFD simulation, encompassing many different flow physics, including advanced turbulence modeling, multiple phase flow, combustion, fire simulation and Evacuation Modeling. To solve CFD problems, Matsyateknik uses the open source tools OpenFOAM and FDS from the Open Source family. Each OpenFOAM and FDS simulation solution has its own advantages for different classes of problems and applications. Together these software tools form an unbeatable combination, allowing us to confidently tackle any fluid dynamics problem. Matsyateknik has done some interesting case studies in the field of • • • Engineering Medical Human Safety . Matsya (Sanskrit: म य) Teknik (Swedish: Technology) (Koine Greek: Fish) Regd. Office: Plot No: 31, Huda Sai Nagar Colony, Vanastalipuram, Hyderabad. Pin: 500070 IT PAN: AAZFM3960C Website: www.matsyateknik.com CFD for Engineering Computational fluid dynamics (CFD), is the most advanced simulation technology which is used for designing, analyzing and development of an engineering system which involves fluid flow. Engineering System involves with immense design variables. All these variables provide numerous design options. A slight variation in any of these variables can bring about enormous effect on final design parameters. CFD is a very efficient way to explore these various design options and choose the best among them. Prediction of Duct Fitting Losses This case study represents a computational analysis of the flow and pressure variation within given HVAC duct fittings by ASHRAE. The objective of the study was to determine the applicability of using commercially available Computational Fluid Dynamics (CFD) tools to calculate fitting loss coefficients. Pressure loss data for the following fittings from the ASHRAE Duct Fitting Database for the flat oval straight body lateral, diverging flow were used for comparison purpose to evaluate CFD data. Thermal Comfort of Engine room The objective of this work valuate is to examine the designed Fresh air Lowers effectiveness in normal ventilation conditions inside the ‘DGC’ using Computational Fluid Dynamics (CFD) Analysis. The specific aim of the work is to check whether the designed Fresh air Lowers was maintaining the thermal comfort levels (as per client specifications) or not by evaluating the below parameters at human occupancy height of 1.7m in DGC: 1. To check whether the proper air circulation is maintained or not 2. To check whether the temperature of less than 65oC is maintained or not Matsya (Sanskrit: म य) Teknik (Swedish: Technology) (Koine Greek: Fish) Regd. Office: Plot No: 31, Huda Sai Nagar Colony, Vanastalipuram, Hyderabad. Pin: 500070 IT PAN: AAZFM3960C Website: www.matsyateknik.com CFD for Medical Computational fluid dynamics (CFD), can be an important methodology to understand the pathophysiology of the development and progression of disease and for establishing and creating treatment modalities in the cardiovascular field. Hemodynamic Effect Investigation of the Hemodynamic Effect of Stent Wires on Renal Arteries in Patients with Abdominal Aortic Aneurysms Treated with Suprarenal Stent-Grafts The project aims to investigate the hemodynamic effect of stent struts (wires) on renal arteries in patients with abdominal aortic aneurysms (AAAs) treated with suprarenal stent-grafts. Two sample patients with AAA undergoing multislice CT angiography pre- and postsuprarenal fixation of stent-grafts were selected for inclusion in the study. Eight juxtarenal models focusing on the renal arteries were generated from the multislice CT datasets. Four types of configurations of stent wires crossing the renal artery ostium were simulated in the segmented aorta models: a single wire crossing centrally, a single wire crossing peripherally, a V-shaped wire crossing centrally, and multiple wires crossing peripherally. The blood flow pattern, flow velocity, wall pressure, and wall shear stress at the renal arteries preand post-stent-grafting were analyzed and compared using a two-way fluid structure interaction analysis. Matsya (Sanskrit: म य) Teknik (Swedish: Technology) (Koine Greek: Fish) Regd. Office: Plot No: 31, Huda Sai Nagar Colony, Vanastalipuram, Hyderabad. Pin: 500070 IT PAN: AAZFM3960C Website: www.matsyateknik.com CFD for Human Safety Computational fluid dynamics (CFD), can simultaneously predict airflow, heat transfer and contaminant transportation in and around buildings. CFD has application in various stages of building design to make buildings better with regard to Safety, Energy Efficiency, Comfort and Health Evacuation This case study is designed to help the designer in order to expect the unexpected and develop a well-thought out emergency action plan to guide, when immediate action is necessary. Calculation of Total Evacuation Time during congestion and panic situations In this case study each individual human movement is treated by an equation of motion. This approach allows each human to have its own personal properties and escape strategies. Humans experience contact forces and moments as well as psychological and motive forces and moments. The resulting equations of motions for the translational and rotational degrees of freedom are solved using the methods of dissipative particle dynamics. Thus, the model uses continuous time and space to track the trajectories of the humans. High crowd density situations and the interaction between evacuation simulations are also modeled. Some social interactions among the humans are also introduced. Matsya (Sanskrit: म य) Teknik (Swedish: Technology) (Koine Greek: Fish) Regd. Office: Plot No: 31, Huda Sai Nagar Colony, Vanastalipuram, Hyderabad. Pin: 500070 IT PAN: AAZFM3960C Website: www.matsyateknik.com CFD for Human Safety Fire Effects on Human Evacuation Time Fire effects are crucial in the evacuation procedure as fire and its products can severely impair the evacuees and even cause total incapacitation or fatalities. Therefore, the assessment of these effects on the humans is vital from the human safety point of view. Fire Simulations for Building and Ships Simulation of smoke propagation inside a car park basement or ship fire involves modeling of heat generated by fire considering effects of buoyancy due to temperature and smoke species concentrations and the velocity and pressure variations caused by mechanical ventilation system in operation. This case study provides a detailed picture of the smoke path inside the basement and different parameters like smoke concentrations, smoke temperatures and velocity profiles at different times and different positions inside the building or ship. This is difficult to obtain by experiments, because experiments can be time consuming, costly and sometimes fire and smoke related experiments inside the buildings can be dangerous as well. Matsya (Sanskrit: म य) Teknik (Swedish: Technology) (Koine Greek: Fish)