5. The tank in Example 3.8 has a leak that admits air at the rate. 0.0005lbm (Poutside - Piank) min atm m How long does it take the pump to reduce the pressure in the tank from 1 atm to 0.01 atm? What is the steady-state pressure in the tank? Vacuum Sys 38

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
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Plz help I am so lost I’m trying to solve for problem 5
5. The tank in Example 3.8 has a leak that admits air at the rate.
0.0005lbm
min-atm
Mass balance equation
dm
dt
How long does it take the pump to reduce the pressure in the tank from 1 atm to 0.01 atm? What
is the steady-state pressure in the tank?
V = 10ft³ T = 68°F
Vacuum Sys
3.8
LOFE
Leak min
sys
= -mout + min
const
Voys
desys
dt
==
M
LEA
Qout esys
In esys, Final -
esys, initial
Do we set A=∞
Poutside
desys
[esys - (min/ Qout)
min
Qout
(min
esys, Final =
Qout
min
Qout
Plank
3
Vol =
+ min
at 68°F = 20°C
68°P
HEATER
or At=
Qout
Vsys
Cair
Psteady state = 1 atm
Temp
Cont
Vsys
Qout
de
Qout
Vsys
Valuum
pussy
In
At
esys initial
esys Final
0.075 1bm
m/ft
3
esys final
-??
0.0751bm/ft
Transcribed Image Text:5. The tank in Example 3.8 has a leak that admits air at the rate. 0.0005lbm min-atm Mass balance equation dm dt How long does it take the pump to reduce the pressure in the tank from 1 atm to 0.01 atm? What is the steady-state pressure in the tank? V = 10ft³ T = 68°F Vacuum Sys 3.8 LOFE Leak min sys = -mout + min const Voys desys dt == M LEA Qout esys In esys, Final - esys, initial Do we set A=∞ Poutside desys [esys - (min/ Qout) min Qout (min esys, Final = Qout min Qout Plank 3 Vol = + min at 68°F = 20°C 68°P HEATER or At= Qout Vsys Cair Psteady state = 1 atm Temp Cont Vsys Qout de Qout Vsys Valuum pussy In At esys initial esys Final 0.075 1bm m/ft 3 esys final -?? 0.0751bm/ft
contains air,
The microchip diffusion furnace in Fig.
which may be considered an ideal gas. The vacuum
pump is pumping air out prior to beginning the thermal
diffusion step. During the pumpout process the heating
coils in the tank hold the temperature in the tank
constant at 68°F. The volumetric flow rate at the inlet of
the pump, independent of pressure, is 1.0 ft³/min.
Volume 10 ft³
68°F
Heater
Vacuum
pump
diffusion furnac
Temperature
controller
Evacuation of a microchip
Transcribed Image Text:contains air, The microchip diffusion furnace in Fig. which may be considered an ideal gas. The vacuum pump is pumping air out prior to beginning the thermal diffusion step. During the pumpout process the heating coils in the tank hold the temperature in the tank constant at 68°F. The volumetric flow rate at the inlet of the pump, independent of pressure, is 1.0 ft³/min. Volume 10 ft³ 68°F Heater Vacuum pump diffusion furnac Temperature controller Evacuation of a microchip
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