Add to ORKGSfePy (simple finite elements in Python) is a software for solving various kinds of problems described by partial differential equations in one, two, or three spatial dimensions by the finite element method. Its source code is mostly (85%) Python and relies on fast vectorized operations provided by the NumPy package. For a particular problem, two interfaces can be used: a declarative application programming interface (API), where problem description/definition files (Python modules) are used to define a calculation, and an imperative API, that can be used for interactive commands, or in scripts and libraries. After outlining the SfePy package development, the paper introduces its implementation, structure, and general features. The componen...
Identification of working fluids and development of their mathematical models should always precede ...
Identification of working fluids and development of their mathematical models should always precede ...
Identification of working fluids and development of their mathematical models should always precede ...
The full source code of the examples presented in the article "Multiscale finite element calculation...
The main tasks that need to be solved to create an application: develop a rental database and develo...
The main tasks that need to be solved to create an application: develop a rental database and develo...
Calculations of dynamic processes in the elements of thermal power plants (TPP) (heat exchangers, co...
International audiencePartial differential equations (PDEs)-such as the Navier-Stokes equations in f...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
Partial differential equations (PDEs)—such as the Navier–Stokes equations in fluid mechanics, the Ma...
The modeling of heat transfer phenomena in thermal systems has been extensively explored in industry...
The working mediums in the gas turbine systems are: atmospheric air, natural gas and exhaust gases. ...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
The working mediums in the gas turbine systems are: atmospheric air, natural gas and exhaust gases. ...
Identification of working fluids and development of their mathematical models should always precede ...
Identification of working fluids and development of their mathematical models should always precede ...
Identification of working fluids and development of their mathematical models should always precede ...
The full source code of the examples presented in the article "Multiscale finite element calculation...
The main tasks that need to be solved to create an application: develop a rental database and develo...
The main tasks that need to be solved to create an application: develop a rental database and develo...
Calculations of dynamic processes in the elements of thermal power plants (TPP) (heat exchangers, co...
International audiencePartial differential equations (PDEs)-such as the Navier-Stokes equations in f...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
Partial differential equations (PDEs)—such as the Navier–Stokes equations in fluid mechanics, the Ma...
The modeling of heat transfer phenomena in thermal systems has been extensively explored in industry...
The working mediums in the gas turbine systems are: atmospheric air, natural gas and exhaust gases. ...
This book offers a concise and gentle introduction to finite element programming in Python based on ...
The working mediums in the gas turbine systems are: atmospheric air, natural gas and exhaust gases. ...
Identification of working fluids and development of their mathematical models should always precede ...
Identification of working fluids and development of their mathematical models should always precede ...
Identification of working fluids and development of their mathematical models should always precede ...