- 13.13.1: The process objective can be described most simply as converting me...
- 13.13.2: Five percent excess air is used in burning the reformer fuel; it is...
- 13.13.3: What are the compositions (mole and mass fractions) and volumetric ...
- 13.13.4: The primary purpose of the reformer is to convert methane and water...
- 13.13.5: As pointed out in the Process Description, the water-gas shift reac...
- 13.13.6: Quantitatively demonstrate that high temperatures and low pressures...
- 13.13.7: The reformer product gas leaves the reformer at 855C. (a) Using the...
- 13.13.8: The heated tube length in the reformer is 10 m and the external dia...
- 13.13.9: Operating data from the plant are available for a past period of op...
- 13.13.10: The generation of steam from the heat produced in the reformer is e...
- 13.13.11: Assume that CO, CO2, H2 , and CH4 are insoluble in liquid water. (a...
- 13.13.12: 2. Each compressor stage in the MUG compressor unit operates adiaba...
- 13.13.13: For the purpose of analyzing the effects of recycle on process econ...
- 13.13.14: Again consider the modified system configuration described in the p...
- 13.13.15: As covered in the Process Description, there are three primary reac...
- 13.13.16: A situation often encountered with thermodynamic data is that diffe...
- 13.13.17: Values of K1>1J3 and KJ,n5 can deviate significantly from unity; ty...
- 13.13.18: You need to examine various ways of controlling the temperature in ...
- 13.13.19: In terms of Le Chatelier's Principle, explain why steam reforming i...
- 13.13.20: Perform an analysis of the converter loop by determining the compos...
- 13.13.21: The purge stream may be used to replace a portion of the methane bu...
- 13.13.22: How much heat must be removed to cool the reaction products from th...
- 13.13.23: The liquid leaving the flash tank in the converter loop is fed to a...
- 13.13.24: 4. Scale the results of your calculations in 13.S(a); 13.7(a),(b); ...
- 13.13.25: Relax the assumptions regarding the split of components at the flas...
- 13.13.26: The converter loop is a net generator of energy (why?) and proper u...
Solutions for Chapter 13: Elementary Principles of Chemical Processes 3rd Edition
Full solutions for Elementary Principles of Chemical Processes | 3rd Edition
An amino acid in which the amino group is on the carbon adjacent to the carboxyl group.
The decay rate of a radioactive material, generally expressed as the number of disintegrations per unit time. (Section 21.4)
Polymers that are formed via cationic addition, anionic addition, or free-radical addition.
Male sex hormones.
atomic mass unit (amu)
A unit based on the value of exactly 12 amu for the mass of the isotope of carbon that has six protons and six neutrons in the nucleus. (Sections 2.3 and 3.3)
A three-dimensional shape that can be adopted by a compound as a result of rotation about single bonds.
A reaction in which an element reacts with a compound, displacing an element from it. (Section 4.4)
A reaction in which the enthalpy of the products is higher than the enthalpy of the reactants; a reaction in which heat is absorbed
The capacity to do work or to transfer heat. (Section 5.1)
Molecules with low molecular weights, which can be joined together (polymerized) to form a polymer. (Section 12.8)
A compound with the structure R2CRN!OH.
pH titration curve
A graph of pH as a function of added titrant. (Section 17.3)
A graphic representation of the equilibria among the solid, liquid, and gaseous phases of a substance as a function of temperature and pressure. (Section 11.6)
Esterlike derivatives of phosphoric acid.
Polyunsaturated fatty acid
A fatty acid with two or more carbon-carbon double bonds in its hydrocarbon chain
Reactions in which one group is replaced by another group.
An element, such as nitrogen, that forms three bonds.
A carbocation in which the positive charge is on one of the carbons of a carbon-carbon double bond.
A solution to a set of equations that defi nes the energy of an electron in an atom and the region of space it may occupy.
Williamson ether synthesis
A method for preparing an ether from an alkoxide ion and an alkyl halide (via an SN2 process).