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LESSON 3: CAPACITY GROWTH PLANNING

LESSON 3: CAPACITY GROWTH PLANNING. Outline Capacity Economies and Diseconomies of Scale Break Even Quantity A Dynamic Capacity Expansion Policy. Capacity. Capacity Capacity of a plant is the number of units that the plant can produce in a given time.

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LESSON 3: CAPACITY GROWTH PLANNING

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  1. LESSON 3: CAPACITY GROWTH PLANNING Outline • Capacity • Economies and Diseconomies of Scale • Break Even Quantity • A Dynamic Capacity Expansion Policy

  2. Capacity • Capacity • Capacity of a plant is the number of units that the plant can produce in a given time. • The term capacity may refer to average capacity, design capacity, and peak capacity. • Best operating level • Best operating level is the design capacity • Design capacity provides minimum average cost • Capacity utilization

  3. Economies and Diseconomies of Scale • Economies and diseconomies of scale • A higher volume of production or production of multiple products results in savings • Two or more products can be produced in the same location. • Duplication of support functions can be eliminated. These functions include information storage and retrieval systems and clerical and support staff. • However, too many products or product lines produced at the same facility could cause an increase in costs because the various manufacturing operations may interfere with each other. This is diseconomies of scale.

  4. 250 room hotel 1000 room hotel 500 room hotel Economies and Diseconomies of Scale Average cost per unit Best operating level Best operating level Best operating level Economies of scale Diseconomies of scale Number of Units Produced

  5. Cost of Capacity and Economies of Scale Let f(y) = the cost of adding capacity y. Economies of scale can be represented as: Where, k is a constant and a<1.

  6. Break-Even Quantity If you invest in a new product, how high must sales be so that you break even? — i.e., when does your net profit ³ 0? Example: Suppose a company produces Q units of a product each year. The selling price is c1 per unit. Production of this product results in a fixed cost of K per year and a variable cost of c2 per unit. What is the breakeven quantity Qb per year?

  7. Break-Even Quantity 3.5 3 Profit 2.5 2 Costs and Revenues 1.5 1 Loss 0.5 0 Qb 0 0.2 0.4 0.6 0.8 1 1.2 Production Quantity Q

  8. A Dynamic Capacity Expansion Policy • Frequency of capacity additions • Too frequent: installation, training, premium for up to date technology, loss of production time • Too infrequent: cost of capital tied to build and maintain the excess capacity • Let D = Annual increase in demand x = Years between successive capacity addition • Then, each capacity addition = xD

  9. A Dynamic Capacity Expansion Policy Lead strategy Lag strategy Capacity xD Units Units Demand D per year Time Time Average addition Incremental vs. one-step Incremental expansion One-step expansion Units Units Time Time

  10. A Dynamic Capacity Expansion Policy • First, a review on the present worth analysis • See Appendix 1-A, p. 51 for details • Let i = discount rate per period F = future value P = present value n = number of periods Then,

  11. A Dynamic Capacity Expansion Policy • If r is the annual discount rate, and the compounding is continuous, • If r is the annual discount rate, the compounding is continuous, and the future value is discounted over t years,

  12. A Dynamic Capacity Expansion Policy • Let r = Annual discount rate f(y) = Cost of opening a plant of capacity y • What is the present cost of adding a capacity of xDif the capacity is added x years from now and the compounding is annual? • What is the present cost of adding a capacity of xDif the capacity is added x years from now and the compounding is semi-annual?

  13. A Dynamic Capacity Expansion Policy • Let r = Annual discount rate f(y) = Cost of opening a plant of capacity y • What is the present cost of adding a capacity of xDif the capacity is added x years from now and the compounding is continuous? • What is the present cost of adding a capacity of xDif the capacity is added 2x years from now and the compounding is continuous?

  14. A Dynamic Capacity Expansion Policy

  15. A Dynamic Capacity Expansion Policy

  16. A Dynamic Capacity Expansion Policy Figure 1-14 1.00 0.90 a 0.80 0.70 0.60 0.50 Function = 0.40 0.30 0.20 0.10 0.00 0 2 4 6 rx

  17. A Dynamic Capacity Expansion Policy Problem 1-37: Based on past experience, a chemicals firm estimates that the cost of new capacity additions obeys the law where y is measured in tons per year and f(y) in millions of dollars. Demand is growing at the rate of 3,000 tons per year and the accounting department recommends a rate of 12 percent per year for discounting future costs. a. Determine the optimal timing of plant additions and the optimal size of each addition.

  18. A Dynamic Capacity Expansion Policy b. What is the cost of each addition? Size of each addition Cost of each addition

  19. A Dynamic Capacity Expansion Policy c. What is the present value of the cost of the next four additions? Assume an addition has just been made for the purposes of your calculation.

  20. A Dynamic Capacity Expansion Policy Problem: From the past experience it is known that each doubling of the size results in an increase in cost of about 75 percent. Compute the value of a, if the cost function is of the form

  21. READING AND EXERCISES Lesson 3 Reading: Section 1.11, pp. 38-48 (4th Ed.), pp. 36-45 (5th Ed.) Exercises: 34, 37, 38 pp. 47-48 (4th Ed.), pp. 44-45 (5th Ed.)

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