Institution
Amirkabir University of Technology
Education•Tehran, Iran•
About: Amirkabir University of Technology is a education organization based out in Tehran, Iran. It is known for research contribution in the topics: Nonlinear system & Finite element method. The organization has 15254 authors who have published 31165 publications receiving 487551 citations. The organization is also known as: Tehran Polytechnic & Tehran Polytechnic University.
Topics: Nonlinear system, Finite element method, Fuzzy logic, Artificial neural network, Nanocomposite
Papers published on a yearly basis
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TL;DR: In this paper, 3-Di-n-butyl-2mthylimidazolium chloride (DnBMCl) ionic liquid was synthesized and used for modification of Pebax 1657 surface.
124 citations
TL;DR: Proposing equations analogous to those of the classical PSO equations, a discrete PSO algorithm (DPSO) is presented to minimize makespan (C"m"a"x) criterion and results signify that the proposed DPSO algorithm is very competitive and can be rapidly guided when hybridizing with a local search heuristic.
124 citations
TL;DR: In this paper, the postbuckling behavior of geometrically imperfect porous beams reinforced with graphene platelets (GPLs) and resting on nonlinear hardening foundation is investigated.
124 citations
TL;DR: In this article, a nanocrystalline HA/β-TCP composites were prepared by microwave assisted synthesis method and, for comparison reason, by conventional wet chemical methods.
124 citations
TL;DR: In this article, the importance of molecular diffusion versus turbulent transport in the moderate or intense lowoxygen dilution (Mild) combustion mode has been numerically studied and the experimental conditions of Dally et al. [Proc. Combust. Inst. 29 (2002) 1147-1154] were used for modelling.
Abstract: In this paper, the importance of molecular diffusion versus turbulent transport in the moderate or intense low-oxygen dilution (Mild) combustion mode has been numerically studied. The experimental conditions of Dally et al. [Proc. Combust. Inst. 29 (2002) 1147–1154] were used for modelling. The EDC model was used to describe the turbulence–chemistry interaction. The DRM-22 reduced mechanism and the GRI 2.11 full mechanism were used to represent the chemical reactions of an H2/methane jet flame. The importance of molecular diffusion for various O2 levels, jet Reynolds numbers and H2 fuel contents was investigated. Results show that the molecular diffusion in Mild combustion cannot be ignored in comparison with the turbulent transport. Also, the method of inclusion of molecular diffusion in combustion modelling has a considerable effect on the accuracy of numerical modelling of Mild combustion. By decreasing the jet Reynolds number, decreasing the oxygen concentration in the airflow or increasing H2 in the ...
124 citations
Authors
Showing all 15352 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Ali Mohammadi | 106 | 1149 | 54596 |
| Mehdi Dehghan | 83 | 875 | 29225 |
| Morteza Mahmoudi | 83 | 334 | 26229 |
| Gaurav Sharma | 82 | 1244 | 31482 |
| Vladimir A. Rakov | 67 | 459 | 14918 |
| Mohammad Reza Ganjali | 65 | 1039 | 25238 |
| Bahram Ramezanzadeh | 62 | 352 | 12946 |
| Muhammad Sahimi | 62 | 481 | 17334 |
| Niyaz Mohammad Mahmoodi | 61 | 218 | 10080 |
| Amir A. Zadpoor | 61 | 294 | 11653 |
| Mohammad Hossein Ahmadi | 60 | 477 | 11659 |
| Goodarz Ahmadi | 60 | 778 | 17735 |
| Maryam Kavousi | 59 | 258 | 22009 |
| Keith W. Hipel | 58 | 543 | 14045 |
| Danial Jahed Armaghani | 55 | 212 | 8400 |