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PRODUCTION AND OPERATIONS MANAGEMENT

PRODUCTION AND OPERATIONS MANAGEMENT. Ch. 10: Layout Strategy. Learning Objectives. How to organize production elements within facilities?. Objectives of the Layout Strategy. Develop an economical layout which will meet the requirements of: product design and volume (product strategy)

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PRODUCTION AND OPERATIONS MANAGEMENT

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  1. PRODUCTION AND OPERATIONS MANAGEMENT Ch. 10: Layout Strategy POM - J. Galván

  2. Learning Objectives • How to organize production elements within facilities? POM - J. Galván

  3. Objectives of the Layout Strategy • Develop an economical layout which will meet the requirements of: • product design and volume (product strategy) • process equipment and capacity (process strategy) • quality of work life (human resource strategy) • building and site constraints (location strategy) POM - J. Galván

  4. What is Facility Layout • Location or arrangement of everything within & around buildings • Objectives are to maximize • Customer satisfaction • Utilization of space, equipment, & people • Efficient flow of information, material, & people • Employee morale & safety POM - J. Galván

  5. Strategic Importance of Layout Proper layout enables: • Higher utilization of space, equipment,and people • Improved flow of information, materials, or people • Improved employee morale and safer working conditions • Improved customer/client interaction • Flexibility POM - J. Galván

  6. Six Layout Strategies • Fixed-position layout • large bulky projects such as ships and buildings • Process-oriented layout • deals with low-volume, high-variety production (“job shop”, intermittent production) • Office layout • positions workers, their equipment, and spaces/offices to provide for movement of information POM - J. Galván

  7. Six Layout Strategies - continued • Retail/service layout • allocates shelf space and responds to customer behavior • Warehouse layout • addresses trade-offs between space and material handling • Product-oriented layout • seeks the best personnel and machine use in repetitive or continuous production POM - J. Galván

  8. Layout Example POM - J. Galván

  9. Requirements of a Good Layout • an understanding of capacity and space requirements • selection of appropriate material handling equipment • decisions regarding environment and aesthetics • identification and understanding of the requirements for information flow • identification of the cost of moving between the various work areas POM - J. Galván

  10. Constraints on Layout Objectives • Product design & volume • Process equipment & capacity • Quality of work life • Building and site POM - J. Galván

  11. Layout strategy Example Criteria Service/retail Drug store Expose customer to high Grocery store margin items Department store Storage Distributor Minimize storage and Warehouse handling costs Product oriented TV assembly line Minimize line imbalance, delay, and idle time Layout Strategies, Examples, and Criteria POM - J. Galván

  12. Communication Service Areas Process Oriented Warehousing Material Attributes Layout Strategy Product Oriented Retail Safety Work Cell Material Flow Areas of Concern in Layout Strategy POM - J. Galván

  13. Fixed-Position Layout • Design is for stationary project • Workers and equipment come to site • Complicating factors • Limited space at site • Changing material needs POM - J. Galván

  14. Factors Complicating a Fixed Position Layout • There is limited space at virtually all sites • At different stages in the construction process, different materials are needed – therefore, different items become critical as the project develops • The volume of materials needed is dynamic POM - J. Galván

  15. Process-Oriented Layout • Design places departments with large flows of material or people together • Department areas having similar processes located in close proximity • e.g., All x-ray machines in same area • Used with process-focused processes POM - J. Galván

  16. Steps in Developing a Process-Oriented Layout • Construct a “from-to matrix” • Determine space requirements for each department • Develop an initial schematic diagram • Determine the cost of this layout • By trial-and-error (or more sophisticated means), try to improve the initial layout • Prepare a detailed plan that evaluates factors in addition to transportation cost POM - J. Galván

  17. Interdepartmental Flow of Parts 1 2 3 4 5 6 50 100 0 0 20 1 10 2 0 50 30 100 20 0 3 4 0 50 5 0 6 POM - J. Galván

  18. Cellular Layout - Work Cells • Special case of product-oriented layout - in what is ordinarily a process-oriented facility • Consists of different machines brought together to make a product • Temporary arrangement only • Example: Assembly line set up to produce 3000 identical parts in a job shop POM - J. Galván

  19. Work Cells - Some Advantages • Reduced work-in-process inventory • Less floor space required • Reduced raw material and finished goods inventories required • Reduced direct labor costs • Heightened sense of employee participation • Increased utilization of equipment machinery • Reduced investment in machinery and equipment • Note: Green & Sadowski report increased capital investment and lower machine utilization POM - J. Galván

  20. Work Cell Advantages Inventory Floor space Direct labor costs Equipment utilization Employee participation Quality POM - J. Galván

  21. Saws Drills Office Work Cell Tool Room Work Cell Floor Plan POM - J. Galván

  22. Requirements for Cellular Production • Identification of families of products -group technology codes • High level of training and flexibility on the part of the employees • Either staff support or flexible, imaginative employees to establish the work cells initially POM - J. Galván

  23. Work Cells, Focused Work Centers and the Focused Factory Work Cell A temporary assembly-line-oriented arrangement of machines and personnel in what is ordinarily a process-oriented facility Example:job shop with rearranged machinery and personnel to produce 30 unique control panels Focused Work A permanent assembly-line-oriented arrangement of machines and personnel in what is ordinarily a process-oriented facility Center Example: manufacturing of pipe brackets at a shipyard Focused Factory A permanent facility to produce a product or component in a product-oriented facility Example: a plant to produce window mechanisms for automobiles POM - J. Galván

  24. Traditional Production Line… 6 people POM - J. Galván

  25. First pass work cell design… 3 people POM - J. Galván

  26. Second try – work cell design – 1 person POM - J. Galván

  27. Floor SpaceReductionnearly 50% POM - J. Galván

  28. Office Layout • Design positions people, equipment, & offices for maximum information flow • Arranged by process or product • Example: Payroll dept. is by process • Relationship chart used • Examples • Insurance company • Software company POM - J. Galván

  29. Accounting Finance Fin. Acct. Manager Brand X Office Layout Floor Plan POM - J. Galván

  30. Ordinary closeness: President (1) & costing (2) 1 1 President 2 3 O 2 Costing U 4 A A 3 Engineering I O Absolutely necessary: President (1) & secretary (4) 4 President’s Secretary I = Important U = Unimportant Relationship Chart POM - J. Galván

  31. Video Retail/Service Layout • Design maximizes product exposure to customers • Decision variables • Store flow pattern • Allocation of (shelf) space to products • Types • Grid design • Free-flow design POM - J. Galván

  32. Retail Layouts - Some Rules of Thumb • Locate high-draw items around the periphery of the store • Use prominent locations such as the first or last aisle for high-impulse and high margin items • Remove crossover aisles that allow customers the opportunity to move between aisles • Distribute what are known in the trade as “power items” (items that may dominate a shopping trip) to both sides of an aisle, and disperse them to increase the viewing of other items • Use end aisle locations because they have a very high exposure rate POM - J. Galván

  33. Grocery Store Bread Meat Milk Check-out Carts Office Retail /Service Layout -Grid Design POM - J. Galván

  34. Apparel Store Trans.Counter Feature Display Table Retail/Service Layout - Free-Flow Design POM - J. Galván

  35. 5 facings • Computerized tool for shelf-space management • Generated from store’s scanner data on sales • Often supplied by manufacturer • Example: P&G PERT PERT PERT PERT PERT VO-5 VO-5 VO-5 SUAVE SUAVE VO-5 VO-5 2 ft. Retail Store Shelf Space Planogram POM - J. Galván

  36. Warehouse Layout • Design balances space (cube) utilization & handling cost • Similar to process layout • Items moved between dock & various storage areas • Optimum layout depends on • Variety of items stored • No. items picked POM - J. Galván

  37. Conveyor Truck Zones Order Picker Warehouse Layout Floor Plan POM - J. Galván

  38. In-coming Outgoing © 1984-1994 T/Maker Co. © 1995 Corel Corp. Cross Docking • Transferring goods • from incoming trucks at receiving docks • to outgoing trucks at shipping docks • Avoids placing goods into storage POM - J. Galván

  39. Random Stocking Systems Often: • Maintain a list of “open” locations • Maintain accurate records of existing inventory and its locations • Sequence items on orders to minimize travel time required to pick orders • Combine orders to reduce picking time • Assign certain items or classes of items, such as high usage items, to particular warehouse areas so that distance traveled is minimized POM - J. Galván

  40. Warehouse and Storage Layout - General Cost Curve The best warehouse layout is where total costs are at a minimum Material handling cost (mostly variable) Costs include: Equipment Damage Position & find Investment Material storage cost (mostly fixed) Costs include: Land & building Building & insurance High Cost Low Low High Warehouse Density POM - J. Galván

  41. Product-Oriented Layout • Facility organized around product • Design minimizes line imbalance • Delay between work stations • Types: Fabrication line; assembly line POM - J. Galván

  42. Product-Oriented Requirements • Standardized product • High production volume • Stable production quantities • Uniform quality of raw materials & components POM - J. Galván

  43. Product-Oriented Layout - Assumptions • Volume is adequate for high equipment utilization • Product demand is stable enough to justify high investment in specialized equipment • Product is standardized or approaching a phase of its life cycle that justifies investment in specialized equipment • Supplies of raw materials and components are adequate and of uniform quality ensure they will work with specialized equipment POM - J. Galván

  44. Product-Oriented Layout Types Fabrication Line Assembly Line • Builds components • Uses series of machines • Repetitive process • Machine paced • Balanced by physical redesign • Assembles fabricated parts • Uses workstation • Repetitive process • Paced by tasks • Balanced by moving tasks POM - J. Galván

  45. Product-Oriented Layout Advantages • Lower variable cost per unit • Lower material handling costs • Lower work-in-process inventories • Easier training & supervision POM - J. Galván

  46. Product-Oriented Layout Disadvantages • Higher capital investment • Special equipment • Any work stoppage stops whole process • Lack of flexibility • Volume • Product POM - J. Galván

  47. 1 3 Work Station Work Station 4 5 2 Work Station Belt Conveyor Office Note: 5 tasks or operations; 3 work stations Product-Oriented Floor Plan POM - J. Galván

  48. Assembly Line BalancingThe General Procedure • Determine cycle time by taking the demand (or production rate) per day and dividing it into the productive time available per day • Calculate the theoretical minimum number of work stations by dividing total task time by cycle time • Perform the line balance and assign specific assembly tasks to each work station POM - J. Galván

  49. Assembly Line Balancing • Analysis of production lines • Nearly equally divides work between workstations while meeting required output • Objectives • Maximize efficiency • Minimize number of work stations POM - J. Galván

  50. Assembly Line Balancing Steps 1. Determine tasks (operations) 2. Determine sequence 3. Draw precedence diagram 4. Estimate task times 5. Calculate cycle time 6. Calculate number of work stations 7. Assign tasks 8. Calculate efficiency POM - J. Galván

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