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HeatedRoad

Plan view analysis of footings on frozen soil. What are the effects of heating a pipeline near the footings.

Model filename: Roadways > HeatedRoad.svm

Tags: Roadways,SVHEAT,Plan,Steady-State,Pipe Design,Road design,Transportation,Roadways

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PipeLineTut2D

This example introduces some of the basic features of SVHEAT and sets up a model of a buried pipeline. The purpose of this model is to determine the effects of the heated pipeline on the frozen ground and the nearby roadway.

Model filename: Roadways > PipeLineTut2D.svm

Tags: Roadways,SVHEAT,2D,Steady-State,Pipe Design,Road design,Transportation,Roadways

Attachments:

RoadPavement_TUT1D

The purpose of this tutorial is to illustrate the procedure to create a 1D SVHeat model, using different methods to specify thermal material properties, apply the temperature as a climate boundary condition, and to solve a transient problem of heat transfer.

Model filename: Roadways > RoadPavement_TUT1D.svm

Tags: Roadways,SVHEAT,1D Vertical,Transient,1D,Transportation,Road design

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RoadPavement_TUT1D_HourlyTemp

The purpose of this tutorial is to illustrate the procedure to create a 1D SVHeat model, using different methods to specify thermal material properties, apply the temperature as a climate boundary condition, and to solve a transient problem of heat transfer. This is the second part of the tutorial where hourly temperatures are used for the climate boundary conditions,

Model filename: Roadways > RoadPavement_TUT1D_HourlyTemp.svm

Tags: Roadways,SVHEAT,1D Vertical,Transient,1D,Transportation,Road design

Attachments:

RoadPavement_TUT1D_Imperial

This tutorial is identical to RoadPavement_TUT1D, except that values are provided in imperial units instead of metric.

Model filename: Roadways > RoadPavement_TUT1D_Imperial.svm

Tags: Roadways,SVHEAT,1D Vertical,Transient,1D,Transportation,Road design

Attachments:

RoadPavement_TUT1D_MinMaxTemp

The purpose of this tutorial is to illustrate the procedure to create a 1D SVHeat model, using different methods to specify thermal material properties, apply the temperature as a climate boundary condition, and to solve a transient problem of heat transfer. This is the second part of the tutorial where daily minimum and maximum temperatures are used for the climate boundary conditions,

Model filename: Roadways > RoadPavement_TUT1D_MinMaxTemp.svm

Tags: Roadways,SVHEAT,1D Vertical,Transient,1D,Transportation,Road design

Attachments:

TRB01

This problem models the infiltration of water under a roadway as an infiltration problem.

Model filename: Roadways > TRB01.svm

Tags: Roadways,SVFLUX,2D,Steady-State,Road design,Transportation,Roadways,Benchmarking,Groundwater

Attachments:

TRB02

This problem models the infiltration of water under a roadway as an infiltration problem.

Model filename: Roadways > TRB02.svm

Tags: Roadways,SVFLUX,2D,Steady-State,Road design,Transportation,Roadways,Benchmarking,Groundwater

Attachments:

TRB03

This problem models the infiltration of water under a roadway as an infiltration problem.

Model filename: Roadways > TRB03.svm

Tags: Roadways,SVFLUX,2D,Steady-State,Road design,Transportation,Roadways,Benchmarking,Groundwater

Attachments:

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