(a) Interpretation: Flow chart for the process should be prepared. Also, the degree of freedom for the process should be determined. Concept introduction: Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product formed also helps to predict the amount accumulated during formation of product. This gives the relation,which is defined as, Input-output = Accumulation. The flow sheet for the process is shown below, For a single reaction system, the final moles of each of the components present, can be estimated by the equation: n i = n i o + v i ξ Here, n i is the final moles of the component i , n i o is the initial moles of the component i , v i is the stoichiometric coefficient of the component i in the reaction and ξ is the extent of the reaction. v i is taken as negative for reactants and positive for products. Mole fraction ( y i ) of any component is given by: y i = n i ∑ n i Here, n i is the moles of component i and ∑ n i is the total moles of all the components present in the mixture.

Question

Natural gas having a specific gravity relative to air of 0.60 and a viscosity of 0.011 cP is flowing through a 6-in. Schedule 40 pipe in which is installed a standard sharp-edged orifice equipped with flange taps. The gas is at 100°F and 20lb/in? abs at the upstream tap. The manometer reading is 46.3 in. of water at 60°F. The ratio of specific heats for natural gas is 1.30. The diameter of the orifice is 2.00 in. Calculate the rate of flow of gas through the line in cubic feet.

Answer 1

Question

Chapter 9, Problem 9.82P

Interpretation Introduction

(a)

Interpretation:

Flow chart for the process should be prepared. Also, the degree of freedom for the process should be determined.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product formed also helps to predict the amount accumulated during formation of product.

This gives the relation,which is defined as,

Input-output = Accumulation.

The flow sheet for the process is shown below,

For a single reaction system, the final moles of each of the components present, can be estimated by the equation:

ni=nio+viξ

Here, ni is the final moles of the component i, nio is the initial moles of the component i, vi is the stoichiometric coefficient of the component i in the reaction and ξ is the extent of the reaction. vi is taken as negative for reactants and positive for products.

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Interpretation Introduction

(b)

Interpretation:

The set of equation identifying the process for the given data should be determined.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(c)

Interpretation:

The values of all equations calculated in part (b) should be calculated.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(d)

Interpretation:

The value of total heat requirements in kW for methane and oxygen preheater should be determined. Also, the value of temperature attained in convertor should be calculated.

Concept introduction:

The amount of heat transferred is

Q = ∑out nH^i − ∑in nH^i

∑out nH^i is the heat of formation of products.

∑in nH^i is the heat of formation of reactants.

The enthalpies of reactants and products depends on the heat capacity and temperature.

Interpretation Introduction

(f)

Interpretation:

The additional steps can be included in the absorber and stripper off gas should be explained.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product is formed also helps to predict the amount accumulated during formation of product.

This gives the relation, which is defined as

Input-output = Accumulation.

The flow sheet for the process is shown below,

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Natural gas having a specific gravity relative to air of 0.60 and a viscosity of 0.011 cP is flowing through a 6-in. Schedule 40 pipe in which is installed a standard sharp-edged orifice equipped with flange taps. The gas is at 100°F and 20lb/in? abs at the upstream tap. The manometer reading is 46.3 in. of water at 60°F. The ratio of specific heats for natural gas is 1.30. The diameter of the orifice is 2.00 in. Calculate the rate of flow of gas through the line in cubic feet.

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11:01 ☑ canvas.ucsd.edu 口 : ... Page 1 > of 2 Q - ZOOM + 4. Consider the two separate sets of measured data for a silt-loam soil measured by Mualem (1976): (1) suction versus water content, and (2) suction versus relative permeability of unsaturated soil, k/ks. Assume that 0s 0.396, 0res = 0.131, and Ks=5.74×10-7 m/s. a. Using the method of least squares in Excel, compute the best-fit values for αNG (kPa¹) and nvg for the van Genuchten (1980) relationship for data set # 1 (assume m = 1-1/nvG). See the example spreadsheet in the homework folder under the files section of Canvas for help in performing this calculation. b. Repeat part (a) and estimate the λ and ac parameters for the Brooks and Corey (1964) SWRC for data set #1. Note that you may need to include an "if" statement at the air entry suction. c. Plot the data for the SWRC versus the fitted van Genuchten (1980) and Brooks and Corey (1964) curves. Which relationship matches the capillary pressure data better (BC or VG)? Explain…

Answer 2

Question

Chapter 9, Problem 9.82P

Interpretation Introduction

(a)

Interpretation:

Flow chart for the process should be prepared. Also, the degree of freedom for the process should be determined.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product formed also helps to predict the amount accumulated during formation of product.

This gives the relation,which is defined as,

Input-output = Accumulation.

The flow sheet for the process is shown below,

For a single reaction system, the final moles of each of the components present, can be estimated by the equation:

ni=nio+viξ

Here, ni is the final moles of the component i, nio is the initial moles of the component i, vi is the stoichiometric coefficient of the component i in the reaction and ξ is the extent of the reaction. vi is taken as negative for reactants and positive for products.

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Interpretation Introduction

(b)

Interpretation:

The set of equation identifying the process for the given data should be determined.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(c)

Interpretation:

The values of all equations calculated in part (b) should be calculated.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(d)

Interpretation:

The value of total heat requirements in kW for methane and oxygen preheater should be determined. Also, the value of temperature attained in convertor should be calculated.

Concept introduction:

The amount of heat transferred is

Q = ∑out nH^i − ∑in nH^i

∑out nH^i is the heat of formation of products.

∑in nH^i is the heat of formation of reactants.

The enthalpies of reactants and products depends on the heat capacity and temperature.

Interpretation Introduction

(f)

Interpretation:

The additional steps can be included in the absorber and stripper off gas should be explained.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product is formed also helps to predict the amount accumulated during formation of product.

This gives the relation, which is defined as

Input-output = Accumulation.

The flow sheet for the process is shown below,

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Answer 3

Question

Chapter 9, Problem 9.82P

Interpretation Introduction

(a)

Interpretation:

Flow chart for the process should be prepared. Also, the degree of freedom for the process should be determined.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product formed also helps to predict the amount accumulated during formation of product.

This gives the relation,which is defined as,

Input-output = Accumulation.

The flow sheet for the process is shown below,

For a single reaction system, the final moles of each of the components present, can be estimated by the equation:

ni=nio+viξ

Here, ni is the final moles of the component i, nio is the initial moles of the component i, vi is the stoichiometric coefficient of the component i in the reaction and ξ is the extent of the reaction. vi is taken as negative for reactants and positive for products.

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Interpretation Introduction

(b)

Interpretation:

The set of equation identifying the process for the given data should be determined.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(c)

Interpretation:

The values of all equations calculated in part (b) should be calculated.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(d)

Interpretation:

The value of total heat requirements in kW for methane and oxygen preheater should be determined. Also, the value of temperature attained in convertor should be calculated.

Concept introduction:

The amount of heat transferred is

Q = ∑out nH^i − ∑in nH^i

∑out nH^i is the heat of formation of products.

∑in nH^i is the heat of formation of reactants.

The enthalpies of reactants and products depends on the heat capacity and temperature.

Interpretation Introduction

(f)

Interpretation:

The additional steps can be included in the absorber and stripper off gas should be explained.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product is formed also helps to predict the amount accumulated during formation of product.

This gives the relation, which is defined as

Input-output = Accumulation.

The flow sheet for the process is shown below,

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Answer 4

Question

Chapter 9, Problem 9.82P

Interpretation Introduction

(a)

Interpretation:

Flow chart for the process should be prepared. Also, the degree of freedom for the process should be determined.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product formed also helps to predict the amount accumulated during formation of product.

This gives the relation,which is defined as,

Input-output = Accumulation.

The flow sheet for the process is shown below,

For a single reaction system, the final moles of each of the components present, can be estimated by the equation:

ni=nio+viξ

Here, ni is the final moles of the component i, nio is the initial moles of the component i, vi is the stoichiometric coefficient of the component i in the reaction and ξ is the extent of the reaction. vi is taken as negative for reactants and positive for products.

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Interpretation Introduction

(b)

Interpretation:

The set of equation identifying the process for the given data should be determined.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(c)

Interpretation:

The values of all equations calculated in part (b) should be calculated.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(d)

Interpretation:

The value of total heat requirements in kW for methane and oxygen preheater should be determined. Also, the value of temperature attained in convertor should be calculated.

Concept introduction:

The amount of heat transferred is

Q = ∑out nH^i − ∑in nH^i

∑out nH^i is the heat of formation of products.

∑in nH^i is the heat of formation of reactants.

The enthalpies of reactants and products depends on the heat capacity and temperature.

Interpretation Introduction

(f)

Interpretation:

The additional steps can be included in the absorber and stripper off gas should be explained.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product is formed also helps to predict the amount accumulated during formation of product.

This gives the relation, which is defined as

Input-output = Accumulation.

The flow sheet for the process is shown below,

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Answer 5

Chapter 9, Problem 9.82P

Interpretation Introduction

(a)

Interpretation:

Flow chart for the process should be prepared. Also, the degree of freedom for the process should be determined.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product formed also helps to predict the amount accumulated during formation of product.

This gives the relation,which is defined as,

Input-output = Accumulation.

The flow sheet for the process is shown below,

For a single reaction system, the final moles of each of the components present, can be estimated by the equation:

ni=nio+viξ

Here, ni is the final moles of the component i, nio is the initial moles of the component i, vi is the stoichiometric coefficient of the component i in the reaction and ξ is the extent of the reaction. vi is taken as negative for reactants and positive for products.

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Interpretation Introduction

(b)

Interpretation:

The set of equation identifying the process for the given data should be determined.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(c)

Interpretation:

The values of all equations calculated in part (b) should be calculated.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Interpretation Introduction

(d)

Interpretation:

The value of total heat requirements in kW for methane and oxygen preheater should be determined. Also, the value of temperature attained in convertor should be calculated.

Concept introduction:

The amount of heat transferred is

Q = ∑out nH^i − ∑in nH^i

∑out nH^i is the heat of formation of products.

∑in nH^i is the heat of formation of reactants.

The enthalpies of reactants and products depends on the heat capacity and temperature.

Interpretation Introduction

(f)

Interpretation:

The additional steps can be included in the absorber and stripper off gas should be explained.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product is formed also helps to predict the amount accumulated during formation of product.

This gives the relation, which is defined as

Input-output = Accumulation.

The flow sheet for the process is shown below,

Answer 6

Chapter 9, Problem 9.82P

Interpretation Introduction

(a)

Interpretation:

Flow chart for the process should be prepared. Also, the degree of freedom for the process should be determined.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product formed also helps to predict the amount accumulated during formation of product.

This gives the relation,which is defined as,

Input-output = Accumulation.

The flow sheet for the process is shown below,

For a single reaction system, the final moles of each of the components present, can be estimated by the equation:

ni=nio+viξ

Here, ni is the final moles of the component i, nio is the initial moles of the component i, vi is the stoichiometric coefficient of the component i in the reaction and ξ is the extent of the reaction. vi is taken as negative for reactants and positive for products.

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Answer 7

Chapter 9, Problem 9.82P

Interpretation Introduction

(a)

Interpretation:

Flow chart for the process should be prepared. Also, the degree of freedom for the process should be determined.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product formed also helps to predict the amount accumulated during formation of product.

This gives the relation,which is defined as,

Input-output = Accumulation.

The flow sheet for the process is shown below,

For a single reaction system, the final moles of each of the components present, can be estimated by the equation:

ni=nio+viξ

Here, ni is the final moles of the component i, nio is the initial moles of the component i, vi is the stoichiometric coefficient of the component i in the reaction and ξ is the extent of the reaction. vi is taken as negative for reactants and positive for products.

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Answer 8

Interpretation Introduction

(b)

Interpretation:

The set of equation identifying the process for the given data should be determined.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Answer 9

Interpretation Introduction

(b)

Interpretation:

The set of equation identifying the process for the given data should be determined.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Answer 10

Interpretation Introduction

(c)

Interpretation:

The values of all equations calculated in part (b) should be calculated.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Answer 11

Interpretation Introduction

(c)

Interpretation:

The values of all equations calculated in part (b) should be calculated.

Concept introduction:

Mole fraction (yi) of any component is given by:

yi=ni∑ni

Here, ni is the moles of component i and ∑ni is the total moles of all the components present in the mixture.

Volumetric flow rate is defined as the product of area for the flow and cross sectional velocity having unit of cubic feet/second.

Answer 12

Interpretation Introduction

(d)

Interpretation:

The value of total heat requirements in kW for methane and oxygen preheater should be determined. Also, the value of temperature attained in convertor should be calculated.

Concept introduction:

The amount of heat transferred is

Q = ∑out nH^i − ∑in nH^i

∑out nH^i is the heat of formation of products.

∑in nH^i is the heat of formation of reactants.

The enthalpies of reactants and products depends on the heat capacity and temperature.

Answer 13

Interpretation Introduction

(d)

Interpretation:

The value of total heat requirements in kW for methane and oxygen preheater should be determined. Also, the value of temperature attained in convertor should be calculated.

Concept introduction:

The amount of heat transferred is

Q = ∑out nH^i − ∑in nH^i

∑out nH^i is the heat of formation of products.

∑in nH^i is the heat of formation of reactants.

The enthalpies of reactants and products depends on the heat capacity and temperature.

Answer 14

Interpretation Introduction

(f)

Interpretation:

The additional steps can be included in the absorber and stripper off gas should be explained.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product is formed also helps to predict the amount accumulated during formation of product.

This gives the relation, which is defined as

Input-output = Accumulation.

The flow sheet for the process is shown below,

Answer 15

Interpretation Introduction

(f)

Interpretation:

The additional steps can be included in the absorber and stripper off gas should be explained.

Concept introduction:

Flow chart for the process is determined on the values of input and output that is the amount of feed entered in the reactor and product is formed also helps to predict the amount accumulated during formation of product.

This gives the relation, which is defined as

Input-output = Accumulation.

The flow sheet for the process is shown below,

Answer 16

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Ch. 9 - The standard heat of the reaction...Ch. 9 - Prob. 9.2P Ch. 9 - Prob. 9.3P Ch. 9 - The standard heat of the reaction...Ch. 9 - Prob. 9.5P Ch. 9 - Prob. 9.6P Ch. 9 - Prob. 9.7P Ch. 9 - Prob. 9.8P Ch. 9 - The standard heat of combustion of gaseous ethane...Ch. 9 - The standard heat of combustion (AH°) of liquid...

Chapter 9 Solutions