(a)
Interpretation:
The flowrate of the given process is to be drawn and labelled. Also, the given expressions are to be derived.
Concept introduction:
A flowchart is the complete representation of a process through boxes or other shapes which represents process units and arrows that represents the input and output of the process. The flowchart must be fully labelled to infer important data about the process involved.
In a system, a conserved quantity (total mass, mass of a species, energy or momentum) is balanced and can be written as
Here, ‘input’ is the stream which enters the system. ‘generation’ is the term used for the quantity that is produced within the system. ‘output’ is the stream which leaves the system. ‘consumption’ is the term used for the quantity that is consumed within the system. ‘accumulation’ is used for the quantity which is builds up within the system.
All the equations which are formed are then solved simultaneously to calculate the values of the unknown variables.
The formula for the fractional conversion
Dew-point temperature is the temperature at which the first drop of liquid appears when a vapor is cooled slowly at the constant pressure. At this point the condensation starts.
Solvent vapor recovery from a gas stream is done by condensation of the solvent vapor. This can be achieved by cooling the gas mixture, compressing it, or the combination of these two operations. More is the compression of the gas; less is the cooling requirement.
For a system containing one condensable gas, the applicable Raoult’s law equation is
(b)
Interpretation:
A spreadsheet is to be prepared according to the given form to estimate the cost of the given process.
Concept introduction:
Dew-point temperature is the temperature at which the first drop of liquid appears when a vapor is cooled slowly at the constant pressure. At this point the condensation starts.
Solvent vapor recovery from a gas stream is done by condensation of the solvent vapor. This can be achieved by cooling the gas mixture, compressing it, or the combination of these two operations. More is the compression of the gas; less is the cooling requirement.
For a system containing one condensable gas, the applicable Raoult’s law equation is
(c)
Interpretation:
The total cost of the operation is to be minimized for temperature variation using Solver.
Concept introduction:
Dew-point temperature is the temperature at which the first drop of liquid appears when a vapor is cooled slowly at the constant pressure. At this point the condensation starts.
Solvent vapor recovery from a gas stream is done by condensation of the solvent vapor. This can be achieved by cooling the gas mixture, compressing it, or the combination of these two operations. More is the compression of the gas; less is the cooling requirement.
For a system containing one condensable gas, the applicable Raoult’s law equation is
(d)
Interpretation:
The total cost of the operation is to be minimized pressure variation using Solver.
Concept introduction:
Dew-point temperature is the temperature at which the first drop of liquid appears when a vapor is cooled slowly at the constant pressure. At this point the condensation starts.
Solvent vapor recovery from a gas stream is done by condensation of the solvent vapor. This can be achieved by cooling the gas mixture, compressing it, or the combination of these two operations. More is the compression of the gas; less is the cooling requirement.
For a system containing one condensable gas, the applicable Raoult’s law equation is
(e)
Interpretation:
The effects of
Concept introduction:
When a space, substance, or system is cooled below its ambient temperature and the excess heat removed from it is rejected to a high-temperature reservoir, then the process is known as Refrigeration.
Compression is the process in which the pressure of a gas is increased, and its volume is decreased. This leads to the phase change of the gas from vapor to liquid.
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Chapter 6 Solutions
ELEM PRIN OF CHEMICAL PROC(LL)+NEXTGEN
- chemical engineering. Compressing hydrogen gas from 1 atm to 300 atm at 25 deg Celcius Determine the specific enthalpy.arrow_forwardRotorences] Use the data below from an electron impact mass spectrum of a pure compound to deduce its structure. Draw your structure in the drawing window. Data selected from the NIST WebBook, https://webbook.nist.gov/chemistry/ m/z Relative intensity 73 1.0 72 25 57 8 43 100 29 17 • You do not have to consider stereochemistry. • You do not have to explicitly draw H atoms. • In cases where there is more than one answer, just draw one. 81 + ་་ CH4 { [ ? Previous Nextarrow_forwardOnly focus on H(3), which the answer is minus 1.26 KJ/mol. This also has the ideal gas of nitrogen gas N2. Two enthalpies need to be calculated for this. The first enthalpy is H = (specific volume) times (pressure difference). For the specific volume of nitrogen, how was 12.089 x10^(-5) m^3/mol obtained? I understand the second enthalpy for the heat capacity for nitrogen gas.arrow_forward
- chemical engineering. The answer for H(3) is minus 1.26 KJ/mol. Demonstrate the reference state to the process state for nitrogen gas. I know that is an ideal gas law for the nitrogen gas. I know how to calculate the heat capacity for this.arrow_forwardQ. VI: An equimolar liquid mixture of benzene and toluene is separated into two product streams by distillation. At each point in the column some of the liquid vaporizes and some of the vapor stream condenses. The vapor leaving the top of the column, which contains 97 mole% benzene, is completely condensed and split into two equal fractions: one is taken off as the overhead product stream, and the other (the reflux) is recycled to the top of the column. The overhead product stream contains 89.2% of the benzene fed to the column. The liquid leaving the bottom of the column is fed to a partial reboiler in which 45% of it is vaporized. The vapor generated in the reboiler (the boilup) is recycled to become the rising vapor stream in the column, and the residual reboiler liquid is taken off as the bottom product stream. The compositions of the streams leaving the reboiler are governed by the relation, YB/(1 - YB) XB/(1 - XB) = 2.25 where YB and XB are the mole fractions of benzene in the…arrow_forwardQ. IV: Aqueous solutions of the amino-acid L-isoleucine (Ile) are prepared by putting 100.0 grams of pure water into each of six flasks and adding different precisely weighed quantities of lle to each flask. The densities of the solutions at 50.0±0.05°C are then measured with a precision densitometer, with the following results. r (g lle/100 g H2O) 0.000 p (g solution/cm³) 0.8821 0.98803 0.98984 1.7683 0.99148 2.6412 3.4093 0.99297 0.99439 4.2064 0.99580 (a) Plot a calibration curve showing the mass ratio, r, as a function of solution density, p, and fit a straight line to the data to obtain an equation of the form r = ap + b. (b) The volumetric flow rate of an aqueous lle solution at a temperature of 50°C is 150 L/h. The density of the sample of the stream is measured and found to be 0.9940 g/cm³. Use the calibration equation to estimate the mass flow rate of lle in the stream (in kg lle/h). (c) It has been later discovered that the thermocouple used to measure the stream temperature…arrow_forward
- chemical engineering. The answer is minus 1.26 KJ/mol for H(3). Demonstrate the reference state to the process state and calculations. I only need help for determing that variable.arrow_forwardExhaust gas from a power plant passes through a 15-by-20-it rectangular duct at an average velocity of 50 ft/s. The total length of duct is 250 ft and there are two 90° bends.The gas is at 180°F and about 1 atm, and the properties are similar to those of air. Calculate the pressure drop in the duet and the power required to overcome pressure losses.arrow_forwardUntuk sistem gas etilena (1)/propilena (2), estimasi (f^1, f^2, $^1, dan ^2 pada t = 150°C, P = 30 bar, dan y1 = 0,35; kij = 0. (a) Dengan menerapkan Persamaan (10.63). (b) Dengan asumsi bahwa campuran adalah lingkungan idealarrow_forward
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