Domain of Steam
DSM Steam domain comprises the broad range of steam component models. This domain enable process engineers, thermal equipment specialists and mechanical engineers to maximize their steam piping systems performance.
DSM allows users to build their own components and to add them to this domain by
Graphical Library Generator and Mathematical Library Generator.
Steam Graphical Library
STEAM PIPE
Calculates the heat losses and pressure drop in a steam pipeline with or without insulation.


BOILER A
calculate the performance of a steam boiler. calculates the fuel consumption. Fuel is coal.
 

BOILER B
calculate the performance of a steam boiler. calculates the fuel consumption. Fuel is oil.
 

BOILER C
calculate the performance of a steam boiler. calculates the fuel consumption. Fuel is natural gas.
 

BACKPRESSURE TURBINE
Calculate the performance of a backpressure steam turbine.
 

AIR_STEAM HX A
Calculate the performance of a circular finned tube heating coil (steam in tubes). Results include outlet air temperature, humidity and inlet pressure, outlet liquid temperature and inlet liquid pressure, sensible and total cooling capacities. Useful for design
 

AIR_STEAM HX B
Calculate the performance of a flat continuous finned tube heating coil (steam in tubes). Results include outlet air temperature, humidity and inlet pressure, outlet liquid temperature and inlet liquid pressure, sensible and total cooling capacities. Useful for design

SHELL AND TUBE A
Calculate the performance of a shell and tube heat exchanger with baffle (steam in tubes). Results include outlet steam temperature and inlet steam pressure, outlet liquid temperature and inlet liquid pressure in shell. Useful for design.


SHELL AND TUBE B
Calculate the performance of a shell and tube heat exchanger without baffle (steam in tubes). Results include outlet steam temperature and inlet steam pressure, outlet liquid temperature and inlet liquid pressure in shell. Useful for design.



DOUBLE PIPE A
Calculate the performance of a double pipe heat exchanger (steam in tubes). Results include outlet steam temperature and inlet pressure on the tube side, outlet liquid temperature and inlet liquid pressure on the annulus side. Useful for design.


STEAM FLOW RESISTANT
Calculates the flow resistance for steam.

STEAM INLET
This component is the source of temperature and mass flow rate of steam and connects to the steam inlet of other components.

STEAM OUTLET
This component is the source of pressure of steam and connects to the steam outlet of other components.

AIR INLET
This component is the source of temperature, humidity ratio and mass flow rate of air and connects to the air inlet of other components.

AIR OUTLET
This component is the source of pressure of air and connects to the air outlet of other components.

LIQUID INLET
This component is the source of temperature and mass flow rate of air and connects to the liquid inlet of other components.

LIQUID OUTLET
This component is the source of pressure of liquid and connects to the liquid outlet of other components.

LIQUID MERGE
This component merge two streams of liquid.

LIQUID DIVERTER
This component split a stream of liquid to two streams of liquid.

AIR MERGE
This component merge two streams of air.

AIR DIVERTER
This component split a stream of air to two streams of air.

STEAM MERGE
This component mixes and merge two streams of steam.

STEAM DIVERTER
This component split a stream of steam to two streams of steam.

BOILER INPUT
This component is the source of steam generation and connects to boilers.

TURBINE INPUT
STEAM
(Steady State)
EXISTING DOMAINS
DSM
DYNAMIC SYSTEM MODELING
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Dynamic Systems Modeling