Process design layout ppt bec doms
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Transcript of Process design layout ppt bec doms
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Process Design and
Facility Layout
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Introduction
• Make or Buy?– Available capacity, excess capacity
– Expertise, knowledge, know-how exists?
– Quality Consideration, specialized firms, control over quality if in-house
– The nature of demand, aggregation
– Cost
Make some components buy remaining
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Introduction
Process selection Deciding on the way production
of goods or services will be organized
Major implications Capacity planning Layout of facilities Equipment, Capital-equipment
or labor intensive Design of work systems
New product and service, technological changes, and competitive pressures
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Forecasting
Product andService Design
TechnologicalChange
CapacityPlanning
ProcessSelection
Facilities andEquipment
Layout
WorkDesign
Figure 6.1
Process Selection and System Design
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Process Types
• Job Shops: Small lots, low volume, general equipment, skilled workers, high-variety. Ex: tool and die shop, veterinarian’s office
• Batch Processing: Moderate volume and variety. Variety among batches but not inside. Ex:paint production , BA3352 sections
• Repetitive/Assembly: Semicontinuous, high volume of standardized items, limited variety. Ex: auto plants, cafeteria
• Continuous Processing: Very high volume an no variety. Ex: steel mill, chemical plants
• Projects: Nonroutine jobs. Ex: preparing BA3352 midterm
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Variety of products and services
How much Flexibility of the process; volume, mix, technology and
design What type and degree
Volume Expected output
Job Shop
Batch
Repetitive
Continuous
Questions Before Selecting A Process
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Dimension Job Shop Batch Repetitive Continuous
Job variety Very High Moderate Low Very low
Process flexibility
Very High Moderate Low Very low
Unit cost Very High Moderate Low Very low
Volume of output
Very low Low High Very high
Product – Process Matrix
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ProductVariety
High Moderate Low Very Low
Equipmentflexibility
High Moderate Low Very Low
LowVolume
ModerateVolume
HighVolume
Very highVolume
ProductVariety
High Moderate Low Very Low
Equipmentflexibility
High Moderate Low Very Low
LowVolume
ModerateVolume
HighVolume
Very highVolume
JobShop
Batch
Repetitiveassembly
ContinuousFlow
Variety, Flexibility, & Volume
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Process Type High variety Low variety
Job Shop Appliance repair
Emergency room
Batch Commercialbakery
ClassroomLecture
Repetitive Automotiveassembly
Automaticcarwash
Continuous(flow)
Oil refineryWater purification
Product – Process Matrix
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Product-Process Matrix
Flexibility-Quality Dependability-Cost
ContinuousFlow
AssemblyLine
Batch
JobShop
LowVolumeOne of a
Kind
MultipleProducts,
LowVolume
FewMajor
Products,HigherVolume
HighVolume,
HighStandard-
ization
Book Writing
MovieTheaters
AutomobileAssembly
SugarRefinery
Flexibility-Quality
Dependability-Cost
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Fixed automation: Low production cost and high volume but with minimal variety and high changes cost Assembly line
Programmable automation: Economically producing a wide variety of low volume products in small batches Computer-aided design and manufacturing systems (CAD/CAM) Numerically controlled (NC) machines / CNC Industrial robots (arms)
Flexible automation: Require less changeover time and allow continuous operation of equipment and product variety Manufacturing cell Flexible manufacturing systems: Use of high automation to achieve
repetitive process efficiency with job shop process • Automated retrieval and storage• Automated guided vehicles
Computer-integrated manufacturing (CIM)
Automation: Machinery that has sensing and control devices that enables it to operate
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Robot
Show wafer_handler_web
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Flexible Manufacturing System Group of machines that include supervisory computer
control, automatic material handling, robots and other processing equipment Advantage:
reduce labor costs and more consistent quality lower capital investment and higher flexibility than
hard automation relative quick changeover time
Disadvantage
used for a family of products and require longer planning and development times
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Computer-integrated manufacturing
Use integrating computer system to link a broad range of manufacturing activities, including engineering design, purchasing, order processing and production planning and control
Advantage:
rapid response to customer order and product change, reduce direct labor cost, high quality
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Service blueprint: A method used in service design to describe and analyze a proposed service. Flowchart:
Service Blueprint
Begin Turn on laptop Connect to LCD A
A View onYes
Lecture
NoBegin
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Establish boundaries Identify steps involved Prepare a flowchart Identify potential failure points Establish a time frame for operations Analyze profitability
Service Process Design
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Layout: the configuration of departments, work centers, and equipment, Whose design involves particular emphasis on movement
of work (customers or materials) through the system Importance of layout
Requires substantial investments of money and effort Involves long-term commitments Has significant impact on cost and efficiency of short-
term operations
Layout
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Inefficient operations
For Example:
High CostBottlenecks
Changes in the designof products or services
The introduction of newproducts or services
Accidents
Safety hazards
The Need for Layout Decisions
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Changes inenvironmentalor other legalrequirements
Changes in volume ofoutput or mix of
products
Changes in methodsand equipment
Morale problems
The Need for Layout Design (Cont’d)
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Basic Layout Types Product Layout
– Layout that uses standardized processing operations to achieve smooth, rapid, high-volume flow• Auto plants, cafeterias
Process Layout– Layout that can handle varied processing requirements
• Tool and die shops, university departments Fixed Position Layout
– Layout in which the product or project remains stationary, and workers, materials, and equipment are moved as needed• Building projects, disabled patients at hospitals
• Combination Layouts
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A Flow Line for Production or Service
Flow Shop or Assembly Line Work Flow
Raw materialsor customer
Finished item
Station 2
Station 3
Station 4
Material and/or labor
Station 1
Material and/or labor
Material and/or labor
Material and/or labor
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A U-Shaped Production Line
Advantage: more compact, increased communication facilitating team work, minimize the material handling
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Dept. A
Dept. B Dept. D
Dept. C
Dept. F
Dept. E
Used for Intermittent processing
Process Layout(functional)
Process Layout
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Process Layout
Process Layout - work travels to dedicated process centers
Milling
Assembly& Test Grinding
Drilling Plating
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Layout types: Product or Process Make your pick
A
B
A
B
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Process vs Layout types Job Shop
Project
Repetitive
Product
Process
Fixed-point
Match?
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Product layoutAdvantages
High volume Low unit cost Low labor skill needed Low material handling High efficiency and
utilization Simple routing and
scheduling Simple to track and
control
Disadvantages Lacks flexibility
Volume, design, mix
Boring for labor Low motivation Low worker enrichment
Can not accommodate partial shut downs/breakdowns
Individual incentive plans are not possible
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Cellular Layouts Cellular Manufacturing
– Layout in which machines are grouped into a cell that can process items that have similar processing requirements. A product layout is visible inside each cell.
Group Technology– The grouping into part families of items with similar
design or manufacturing characteristics. Each cell is assigned a family for production. This limits the production variability inside cells, hence allowing for a product layout.
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A Group of Parts
Similar manufacturing characters
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Dimension Process CellularNumber of moves between departments
many few
Travel distances longer shorter
Travel paths variable fixed
Job waiting times greater shorter
Amount of work in process
higher lower
Supervision difficulty higher lower
Scheduling complexity higher lower
Equipment utilization Lower? Higher?
Process vs. Cellular Layouts
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Process Layout
Gearcutting
Mill Drill
Lathes
Grind
Heattreat
Assembly
111
333
222
444
222111444
111 3331111 2222
222
3333
111
444111
333333333
44444
3333
3322
222
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Cellular Manufacturing Layout
-1111 -1111
222222222 - 2222
Ass
emb
ly
3333333333 - 3333
44444444444444 - 4444
Lathe
Lathe
Mill
Mill
Mill
Mill
Drill
Drill
Drill
Heat treat
Heat treat
Heat treat
Gear cut
Gear cut
Grind
Grind
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Basic Layout Formats Group Technology Layout
Similar to cellular layout
Fixed Position Layout– e.g. Shipbuilding
Part Family W Part Family X
Part Family Y
Part Family Z
Assemble Y,W Assemble X,Z
Final Product
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Fixed-Position and combination Layout
Fixed-Position Layout:
item being worked on remains stationary, and workers, materials and equipment are moved as needed.
Example: buildings, dams, power plants
Combination Layouts:
combination of three pure types.
Example: hospital: process and fixed position.
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Warehouse and storage layouts
Issue: Frequency of orders Retail layouts
Issue: Traffic patterns and traffic flows Office layouts
Issue: Information transfer, openness
Service Layouts
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Design Product Layouts: Line Balancing
Line balancing is the process of assigning tasks to workstations in such a way that the workstations have approximately the sameprocessing time requirements. This results in the minimized idle time along the line and high utilization of labor and equipment.
Cycle time is the maximum time allowed at each workstation to complete its set of tasks on a single unit
What is the cycle time for the system above?
Worker 1 Worker 2
4 tasks 2 tasks
Each task takes 1 minutes, how to balance?
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Parallel Workstations
1 min.2 min.1 min.1 min. 30/hr. 30/hr. 30/hr. 30/hr.
1 min.
2 min.
1 min.1 min. 60/hr.
30/hr. 30/hr.
60/hr.
2 min.
30/hr.30/hr.
Bottleneck
Parallel Workstations
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The obstacle The difficulty to forming task bundles that have the
same duration. The difference among the elemental task lengths can
not be overcome by grouping task. Ex: Can you split the tasks with task times {1,2,3,4} into
two groups such that total task time in each group is the same?
Ex: Try the above question with {1,2,2,4} A required technological sequence prohibit the
desirable task combinations Ex: Let the task times be {1,2,3,4} but suppose that the task
with time 1 can only done after the task with time 4 is completed. Moreover task with time 3 can only done after the task with time 2 is completed. How to group?
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Cycle time is the maximum time allowed at each workstation to complete its tasks on a unit.
Cycle Time
The major determinant: cycle time
Minimum cycle time: longest task time by assigning each task to a workstation
Maximum cycle time: sum of the task time by assigning all tasks to a workstation
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Determine Maximum OutputCycle Time: Time to process 1 unit
Example: If a student can answer a multiple choice question in 2 minutes but gets a test with 30 questions and is given only 30 minutes thenOT=30 minutes; D=30Desired cycle time=1 minute < 2 minutes = Cycle time from the process capability
OT
D
OT
DCT
OT
DCT
OT
DCT
:
:
OperatingTimePerDay
DesiredOutputRate
DesiredCycleTime
CycleTime FromProcessDesign
Can produce at the desired level, design is feasible
Cannot produce at the desired level, design is infeasible
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Determine the Minimum Number of Workstations Required:
Efficiency
s task timeof sum = t
CT
t
product afor timeAvailabale
product afor task timeTotal
OT/D
t N
OT
t)(D)(
day ain timeAvailabale
day ain produced products allfor task timeTotal = N
min
min
Example: Students can answer a multiple choice question in 2 minutes but given a test with 30 questions and is given only 30 minutes. What is the minimum number of students to collaborate to answer all the questions in the exam?Total operation (task) time = 60 minutes = 30 x 2 minutesOperating time=30 minutes60/3=2 students must collaborate. This Nmin below.
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Percent idle time = Idle time per cycle
(N)(CT)
Efficiency = 1 – Percent idle time
Percent Idle Time
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Example 1: Precedence DiagramPrecedence diagram: Tool used in line balancing to display elemental tasks and sequence requirements
a b
c d e
0.1 min.
0.7 min.
1.0 min.
0.5 min. 0.2 min.
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Example 1: Assembly Line Balancing
Arrange tasks shown in the previous slide into workstations.– Use a cycle time of 1.0 minute
• Every 1 minute, 1 unit must be completed
– Rule: Assign tasks in order of the most number of followers• If you are to choose between a and c, choose a• If you are to choose between b and d, choose b• Number of followers: a:3, b:2, c:2, d:1, e:0
– Eligible task fits into the remaining time and all of its predecessors are assigned.
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Solution to Example 1. Assigning operations by the
number of followersWork-
Station Time
Remaining
Eligible Assign Task
Station Idle Time
1 1.0 .9 .2
a,c c
none
a c -
.2 2 1.0
0 b
none b -
0
3 1.0 .5 .3
d e -
d e -
.3
.5
Work- Station
Time Remaining
Eligible
Assign Task
Station Idle Time
1 1.0 .9 .2
a,c c
none
a c -
.2 2 1.0
0 b
none b -
0
3 1.0 .5 .3
d e -
d e -
.3
.5
- Eligible operation fits into the remaining time and its predecessors are already assigned.- What is the minimum cycle time possible for this example?
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Calculate Percent Idle Time
mestation ti Total(N)(CT)
cycle a during stationsat timesidle of Sum = timeidlePercent
%7.16167.0(3)(1)
0.300.2 = timeidlePercent
Efficiency=1-percent idle time=1-0.167=0.833=83.3%
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Line Balancing Heuristic Rules Assign tasks in order of most following
tasks.
Assign task in the order of the greatest task time.
Assign tasks in order of greatest positional weight.
– Positional weight is the sum of each task’s time and the times of all following tasks.
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Solution to Example 1. Assigning operations using their task times.
Work- Station
Time Remaining
Eligible
Assign Task
Station Idle Time
1 1.0 .9 .2
a,c a
none
c a -
.2 2 1.0
0 b
none b -
0
3 1.0 .5 .3
d e -
d e -
.3
.5
Work- Station
Time Remaining
Eligible
Assign Task
Station Idle Time
1 1.0 .9 .2
a,c a
none
c a -
.2 2 1.0
0 b
none b -
0
3 1.0 .5 .3
d e -
d e -
.3
.5
Eligible operation fits into the remaining time and its predecessors are already assigned.
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Positional WeightsAssign tasks in order of greatest positional weight.
– Positional weight is the sum of each task’s time and the times of all following tasks.
– a:1.8 mins; b: 1.7 mins; c:1.4 mins; d: 0.7 mins;
e:0.2 mins.
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Solution to Example 1. Assigning operations using their task times.
Work- Station
Time Remaining
Eligible
Assign Task
Station Idle Time
1 1.0 .9 .2
a,c c
none
a c -
.2 2 1.0
0 b
none b -
0
3 1.0 .5 .3
d e -
d e -
.3
.5
Work- Station
Time Remaining
Eligible
Assign Task
Station Idle Time
1 1.0 .9 .2
a,c c
none
a c -
.2 2 1.0
0 b
none b -
0
3 1.0 .5 .3
d e -
d e -
.3
.5
Eligible operation fits into the remaining time and its predecessors are already assigned.
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c d
a b e
f g h
0.2 0.2 0.3
0.8 0.6
1.0 0.4 0.3
Example 2
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Station 1 Station 2 Station 3 Station 4
a b ef
d
g h
c
Solution to Example 2
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Requirements: List of departments
Shape requirements Projection of work flows
One way vs. two way: Packaging and final assembly. Distance between locations
One way vs. two way: Conveyors, Elevators. Amount of money to be invested List of special considerations
Technical, Environmental requirements
Designing Process Layouts
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Example 3: Locate 3 departments to 3 sites
Distances:
in meters
Work Flow:
in kilos
From\To A B C
A - 20 40
B 20 - 30
C 40 30 -
From\To 1 2 3
1 - 10 80
2 20 - 30
3 90 70 -
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Example 3 Mutual flow:
Closeness graph:
From\To 1 2 3
1 - - -
2 30 - -
3 170 100 -
3
1 2
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Create Layout Alternatives Find the one which minimizes transportation
costs and distance traveled
Designing Process Layouts
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Example 3: Layout Alternative 1
1 3 2
30
170 100
A B C
Total Distance Traveled by Material=7600 m
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Example 3: Layout Alternative 2
1 2 3
170
30 100
A B C
Total Distance Traveled by Material=10400 m
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Closeness Rating: multiple criteria
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Muther Grid Allow multiple objectives and subjective
input from analysis or manager to indicate the relative importance of each combination of department pairs.
Subjective inputs are imprecise and unreliable
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Example 4 Heuristic: assign
critical departments first. The critical departments are those with X and A ratings.
Solution:
As Xs
1-2 1-4
1-3 3-6
2-6 3-4
3-5
4-6
5-6
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Example 4 Begin with most
frequently in the A list (6)
Add remaining As to the main cluster
Graphically portray Xs Fit the cluster into the
arrangement
62 4
51
31 2 6
3 5 4
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Summary Process Selection
Objective, Implication, types Product Layout
Line balancing: procedures and measures Process layout
Information requirements, measures
From to chart and Muther grid
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An example for RecitationTasks times and predecessors for
an operationTask label Time Predecessors
A 2 None
B 7 A
C 5 None
D 2 None
E 15 C,D
F 7 A,E
G 6 None
H 4 B,G
I 9 A
J 10 None
K 4 None
L 8 J,K
M 6 A,L
N 15 F,H,I,M
C
D
A
G
J
K
E
L
F
B
I
M
H N
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Recitation example Find a workstation assignment by taking
cycle time=17 minutes by assigning in the order of the greatest task time.
Can you find an assignment that uses only six stations and meets 17 minute cycle time requirement.
See the solution in the next recitation.
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StationTime
remaining Eligible AssignIdle
Time1 17 C,D,A,G,J,K J
7 C,D,A,G,K G 1
2 17 C,D,A,K C
12 D,A,K K
8 D,A,L L 0
3 17 D,A A
15 D,B,I,M I
6 D,B,M M 0
4 17 D,B B
10 D,H H
6 D D 4
5 17 E E 2
6 17 F F 10
7 17 N N 2
Solution 1: Greatest task time first
A 2 None
B 7 A
C 5 None
D 2 None
E 15 C,D
F 7 A,E
G 6 None
H 4 B,G
I 9 A
J 10 None
K 4 None
L 8 J,K
M 6 A,L
N 15 F,H,I,M
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Solution 2: A heuristic
Workstation Assignment that uses only six stations and meets 17 minute cycle time requirement
STATION NO OPERATIONS STATION TIME
1 C,D,G,K 17
2 E,A 17
3 J,B 17
4 L,I 17
5 F,H,M 17
6 N 15
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OPERATIONSUCCESSORS'
TASK TIME TASK TIME
C 42 5
D 39 2
J 39 10
E 37 15
K 33 4
L 29 8
A 28 2
B 26 7
G 25 6
I 24 9
F 22 7
M 21 6
H 19 4
N 15 15
Solution 3: Greatest positional weight first
STATION NO OPERATIONSSTATION
TIME
1 C,D,J 17
2 E,A 17
3 K,L 12
4 B,G,H 17
5 I,F 16
6 M 6
7 N 15
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Practice Questions True/False General, Job-Shop systems have a lower unit cost
than continuous systems do because continuous systems use costly specialized equipment.
In cellular manufacturing, machines and equipment are grouped by type (e.g., all grinders are grouped into a cell).
Answer: False Page: 218 Answer: False Page: 233
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Practice Questions1. Layout planning is required because of: Efficient operations Accidents or safety hazards New products or services Morale problems A) I and II B) II and IV C) I and III D) II, III, and IV E) I, II, III, and IV
Answer: D Page: 227
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Practice Questions
2. Which type of processing system tends to produce the most product variety?
A)Assembly B)Job-Shop C)Batch D)Continuous E) Project
Answer: B Page: 220
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Practice Questions3. A production line is to be designed for a job
with three tasks. The task times are 0.3 minutes, 1.4 minutes, and 0.7 minutes. The minimum cycle time in minutes, is:
A)0.3 B)0.7 C)1.4 D)2.4 E) 0.8 Answer: C