MESHLESS STEADY AND TRANSIENT HEAT CONDUCTION SIMULATION USING LEAST SQUARE MOVING PARTICLE SEMI-IMPLICIT METHOD
Least Square Moving Particle Semi-Implicit (LSMPS) is a particle-based spatial gradient operator developed to calculate the gradient of variable value distributed along the simulation domain. In this project, a solver based on the LSMPS method was developed to solve heat conduction problems. To r...
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id-itb.:657132022-06-24T13:58:13ZMESHLESS STEADY AND TRANSIENT HEAT CONDUCTION SIMULATION USING LEAST SQUARE MOVING PARTICLE SEMI-IMPLICIT METHOD Agung Nugroho, Michael Indonesia Final Project particle-based computation, LSMPS, heat conduction, elliptical particle model, multiresolution model, parallelepiped INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/65713 Least Square Moving Particle Semi-Implicit (LSMPS) is a particle-based spatial gradient operator developed to calculate the gradient of variable value distributed along the simulation domain. In this project, a solver based on the LSMPS method was developed to solve heat conduction problems. To reduce computational costs, multiresolution and elliptical particle models are also de- veloped in this heat conduction solver. The solver created is tested using 2 heat conduction cases, namely steady heat conduction in 2 dimensions and transient heat conduction in 3 dimensions. The results of both simulations show that in general, the developed solver can be used to solve heat conduc- tion problems. However, multiresolution and elliptical model must be used appropriately to be beneficial. text |
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Institut Teknologi Bandung |
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Indonesia Indonesia |
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Indonesia |
| description |
Least Square Moving Particle Semi-Implicit (LSMPS) is a particle-based
spatial gradient operator developed to calculate the gradient of variable value
distributed along the simulation domain. In this project, a solver based on the
LSMPS method was developed to solve heat conduction problems. To reduce
computational costs, multiresolution and elliptical particle models are also de-
veloped in this heat conduction solver. The solver created is tested using 2
heat conduction cases, namely steady heat conduction in 2 dimensions and
transient heat conduction in 3 dimensions. The results of both simulations
show that in general, the developed solver can be used to solve heat conduc-
tion problems. However, multiresolution and elliptical model must be used
appropriately to be beneficial.
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| format |
Final Project |
| author |
Agung Nugroho, Michael |
| spellingShingle |
Agung Nugroho, Michael MESHLESS STEADY AND TRANSIENT HEAT CONDUCTION SIMULATION USING LEAST SQUARE MOVING PARTICLE SEMI-IMPLICIT METHOD |
| author_facet |
Agung Nugroho, Michael |
| author_sort |
Agung Nugroho, Michael |
| title |
MESHLESS STEADY AND TRANSIENT HEAT CONDUCTION SIMULATION USING LEAST SQUARE MOVING PARTICLE SEMI-IMPLICIT METHOD |
| title_short |
MESHLESS STEADY AND TRANSIENT HEAT CONDUCTION SIMULATION USING LEAST SQUARE MOVING PARTICLE SEMI-IMPLICIT METHOD |
| title_full |
MESHLESS STEADY AND TRANSIENT HEAT CONDUCTION SIMULATION USING LEAST SQUARE MOVING PARTICLE SEMI-IMPLICIT METHOD |
| title_fullStr |
MESHLESS STEADY AND TRANSIENT HEAT CONDUCTION SIMULATION USING LEAST SQUARE MOVING PARTICLE SEMI-IMPLICIT METHOD |
| title_full_unstemmed |
MESHLESS STEADY AND TRANSIENT HEAT CONDUCTION SIMULATION USING LEAST SQUARE MOVING PARTICLE SEMI-IMPLICIT METHOD |
| title_sort |
meshless steady and transient heat conduction simulation using least square moving particle semi-implicit method |
| url |
https://digilib.itb.ac.id/gdl/view/65713 |
| _version_ |
1822932831698944000 |