An assembly line with 17 tasks is to be balanced. The longest task is 2.4 minutes, and the total time for all tasks is 18 minutes. The line

Question

An assembly line with 17 tasks is to be balanced. The longest task is 2.4 minutes, and the total time for all tasks is 18 minutes. The line will operate for 450 minutes per day. Show all relevant calculations. a. What are the minimum and maximum cycle times? b. What range of output is theoretically possible for the line? c. What is the minimum number of workstations needed if the maximum output rate is to be sought? d. What cycle time will provide an output rate of 125 units per day? e. What output potential will result if the cycle time is (1) 9 minutes? (2) 15 minutes?

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Valentina 2 weeks 2021-09-28T20:00:10+00:00 1 Answer 0

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    2021-09-28T20:02:04+00:00

    Answer:

    a. What are the minimum and maximum cycle times?

    OT = 450 minutes

    a. Minimum cycle time = length of longest task, which is 2.4 minutes.

    Maximum cycle time = Σ task times = 18 minutes.

    b. What range of output is theoretically possible for the line?

    Range of output:

    2.4 min: = \frac{450}{2.4} = 187.5 units

    18 min: = \frac{450}{18} = 25 units

    c. What is the minimum number of workstations needed if the maximum output rate is to be sought?

    N = DxΣt / OT = 187.5(18) / 450 = 7.5, rounded off to 8.

    d. What cycle time will provide an output rate of 125 units per day?

    Output = OT/ CT,

    Solving for CT, CT = 450 / 125 = 3.6 minutes per cycle

    e. What output potential will result if the cycle time is (1) 9 minutes? (2) 15 minutes?

    Potential output:

    CT = 9 min: OT / CT = 450 / 9 = 50 units.

    CT = 15 min: OT / CT = 450 / 15 = 30 units.

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