Corresponding Solutions for Chemical Reaction Engineering
CHAPTER 1 OVERVIEW OF CHEMICAL REACTION ENGINEERING (1)
CHAPTER 2 KINETICS OF HOMOGENEOUS REACTIONS (3)
CHAPTER 3 INTERPRETATION OF BATCH REACTOR DATA (7)
CHAPTER 4 INTRODUCTION TO REACTOR DESIGN (19)
CHAPTER 5 IDEAL REACTOR FOR A SINGLE REACTOR (22)
CHAPTER 6 DESIGN FOR SINGLE REACTIONS (26)
CHAPTER 10 CHOOSING THE RIGHT KIND OF REACTOR (32)
CHAPTER 11 BASICS OF NON-IDEAL FLOW (34)
简单春节手抄报
CHAPTER 18 SOLID CATALYZED REACTIONS (43)
Chapter 1 Overview of Chemical Reaction Engineering
1.1 Municipal waste water treatment plant. Consider a municipal water treatment plant for a
small community (Fig.P1.1). Waste water, 32000 m 3/day, flows through the treatment plant with a mean residence time of 8 hr, air is bubbled through the tanks, and microbes in the tank attack and break down the organic material
(organic waste) +O 2 −−−→−microbes CO 2 + H 2O
A typical entering feed has a BOD (biological oxygen demand) of 200 mg O 2/liter, while
the effluent has a megligible BOD. Find the rate of reaction, or decrea in BOD in the treatment tanks.
Figure P1.1 Solution: )
小学美术教学总结/(1017.2)/(75.183132/100010001)0200()(31320003
1320001343333s m mol day m mol day mol g m L mg g L mg day day m day day m Vdt
dN r A
A ⋅⨯=⋅=-⨯⨯⨯-⨯-=-=--
1.2 Coal burning electrical power station. Large central power stations (about 1000 MW
electrical) using fluiding bed combustors may be built some day (e Fig.P1.2). The giants would be fed 240 tons of coal/hr (90% C, 10%H 2), 50% of which would burn within the battery of primary fluidized beds, the other 50% elwhere in the system. One suggested design would u a battery of 10 fluidized beds, each 20 m long, 4 m wide, and containing solids to a depth of 1 m. Find the rate of reaction within the beds, bad on the oxygen ud. Waste water
32,000 m 3/day Clean water 32,000 m 3/day
200 mg O 2
优雅图片
needed/liter Zero O 2 needed
Solution:
380010)1420(m V =⨯⨯⨯=
)
/(9000101089.05.0102403
3hr bed molc hr kgc
kgcoal kgc hr coal
t N c
⋅-=⨯-=⨯⨯⨯-=∆∆
)/(25.1119000800113
22hr m kmolO t N V r r c c O ⋅=-⨯-=∆∆-=-=
)/(12000412000
190002
hr bed mol dt dO ⋅=+⨯=
)/(17.4800)
/(105.113422s m mol hr bed mol dt dO V r O ⋅=⋅⨯==-
女人喝咖啡的最佳时间
旅游计划书Chapter 2 Kinetics of Homogeneous Reactions
2.1 A reaction has the stoichiometric equation A + B =2R . What is the order of reaction? Solution: Becau we don’t know whether it is an elementary reaction or not, we can’t tell the index of the reaction.
2.2 Given the reaction 2NO 2 + 1/2 O 2 = N 2O 5 , what is the relation between the rates of
formation and disappearance of the three reaction components?
Solution: 522224O N O NO r r r =-=-
2.3 A reaction with stoichiometric equation 0.5 A + B = R +0.5 S has the following rate
expression
-r A = 2 C0.5 AC B
退工证明
咖啡历史What is the rate expression for this reaction if the stoichiometric equation is written as
A + 2
B = 2R + S
Solution: No change. The stoichiometric equation can’t effect the rate equation, so it doesn’t change.
2.4 For the enzyme-substrate reaction of Example 2, the rate of disappearance of substrate is
given by
-r A = A
06]][[1760C E A + , mol/m 3·s What are the units of the two constants?
Solution: ]
[]6[]][][[][03A A C E A k s m mol r +=⋅=- 3/][]6[m mol C A ==∴
s
m mol m mol m mol s m mol k 1)/)(/(/][3333=⋅⋅=
2.5 For the complex reaction with stoichiometry A + 3B → 2R + S and with cond -order rate expression
-r A = k 1[A][B]
are the reaction rates related as follows: r A = r B = r R ? If the rates are not so related,
then how are they related? Plea account for the sings , + or - .
Solution: R B A r r r 2
131=-=-
2.6 A certain reaction has a rate given by
-r A = 0.005 C2 A , mol/cm 3·min
If the concentration is to be expresd in mol/liter and time in hours, what would be
the value and units of the rate constant? Solution:
min )()(3'⋅⨯-=⋅⨯
-cm mol r hr L mol r A A 22443'300005.0106610)(min
A A A A A C C r r cm mol mol hr L r =⨯⨯=⋅⨯=-⋅⋅⋅=-∴ A A A A A C C cm mol mol L C cm mol C L mol C 33'3'10)()(=⋅⋅=∴⨯=⨯
2
'42'32'103)10(300300)(A A A A C C C r --⨯=⨯==-∴ 4'103-⨯=∴k
2.7 For a gas reaction at 400 K the rate is reported as
透视表怎么做
-dt
dp A = 3.66 p2 A, atm/hr (a) What are the units of the rate constant?
(b) What is the value of the rate constant for this reaction if the rate equation is
expresd as
-r A = -
dt dN V A 1 = k C2 A , mol/m 3·s
Solution:
(a) The unit of the rate constant is ]/1[hr atm ⋅
(b) dt dN V r A A 1-=- Becau it’s a gas reaction occuring at the fined terperatu, so V=constant, and T=constant, so the equation can be reduced to
