= Consider a four aisle AS/RS in which an S/R machine is used for each aisle. The length of the storage aisle 85 m and its height = 14 m. Suppose horizontal and vertical speeds of the S/R machine are 61 m/min and 23 m/min, respectively. The S/R machine requires 20 s to accomplish a P&D operation. The aisles in the AS/RS will be organized to follow a class-based dedicated storage strategy. There will be two classes, according to activity level. The more active stock is stored in the half of the rack system that is located closest to the input/output station, and the less active stock is stored in the other half of the rack system farther away from the input/output station. Within each half of the rack system, random storage is used. The more active stock accounts for 80% of the transactions, and the less active stock accounts for the remaining 20%. Assume that system utilization 90%, and the number of single-command cycles = the number of dual-command cycles. Determine the throughput of the AS/RS. =

= Consider a four aisle AS/RS in which an S/R machine is used for each aisle. The length of the storage aisle 85 m and its height = 14 m. Suppose horizontal and vertical speeds of the S/R machine are 61 m/min and 23 m/min, respectively. The S/R machine requires 20 s to accomplish a P&D operation. The aisles in the AS/RS will be organized to follow a class-based dedicated storage strategy. There will be two classes, according to activity level. The more active stock is stored in the half of the rack system that is located closest to the input/output station, and the less active stock is stored in the other half of the rack system farther away from the input/output station. Within each half of the rack system, random storage is used. The more active stock accounts for 80% of the transactions, and the less active stock accounts for the remaining 20%. Assume that system utilization 90%, and the number of single-command cycles = the number of dual-command cycles. Determine the throughput of the AS/RS. =

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Automation in manufacturing processes

The term automation refers to the technique through which the creation of an apparatus takes place using an automatic process or a system. Let us try to understand this with an example.

Question

=
Consider a four aisle AS/RS in which an S/R machine is used for each aisle.
The length of the storage aisle 85 m and its height = 14 m. Suppose
horizontal and vertical speeds of the S/R machine are 61 m/min and 23
m/min, respectively. The S/R machine requires 20 s to accomplish a P&D
operation. The aisles in the AS/RS will be organized to follow a class-based
dedicated storage strategy. There will be two classes, according to activity
level. The more active stock is stored in the half of the rack system that is
located closest to the input/output station, and the less active stock is
stored in the other half of the rack system farther away from the
input/output station. Within each half of the rack system, random storage
is used. The more active stock accounts for 80% of the transactions, and
the less active stock accounts for the remaining 20%. Assume that system
utilization = 90%, and the number of single-command cycles = the number
of dual-command cycles. Determine the throughput of the AS/RS.

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