Industrial Engineering
Faculty – Ruchita Joshi
Index Unit 1
Productivity
Work Study
Unit 2 Plant layout and materials Handling
Replacement Analysis
Maintenance Management
Unit 3 Inventory Control
Quality Control
Unit 4 Industrial Ownership
Manpower Planning
Organization
Job Evaluation & Merit rating
Unit - 2
Chapter - 3
Plant layout
and
Materials Handling
Plant Location
Why study of plant location is important?
• Plant location of the plant can be constant source of higher cost, difficult marketing and transportation, dissatisfaction among the employees and customers, frequent disturbances in production, substandard quality, competitive disadvantage etc.
• Once plant is setup at a particular location, it is comparatively immobile and can be shifted later only at a considerable cost and interruption of production.
• The investment in land and buildings is quite large in case of bigger firms and economics of one location against other needs to be evaluated carefully to ensure fair return on such investment.
Plant Location contd…
Factors governing plant location
• Regional Factors: proximity to markets, proximity to sources of raw materials, availability of utilities, transport facilities, climatic condition, industrial and taxation laws, etc.
• Community factors: Availability of labor, industrial and labor attitudes, social structure, service facilities, etc.
• Site factors: Availability and cost of land, etc.
Facility Layout
Facility layout means planning:
• It is also known as Plant Layout
• A facility layout is an arrangement of everything needed for production of goods or delivery of services. A facility is an entity that facilitates the performance of any job. It may be a machine tool, a work centre, a manufacturing cell, a machine shop, a department, a warehouse, etc.
• The location of all machines, utilities, employee workstations, customer service areas, material storage areas, aisles, restrooms, lunchrooms, internal walls, offices, and computer rooms
• The flow patterns of materials and people around, into, and within buildings • infrastructure services such as the delivery of line communications, energy, and
water and the removal of waste water all make up basic utilities.
Principles of Plant Layout
The criteria which can judge whether or not plant layout is good are:
1. Principle of overall integration of factors
• A good layout is one which integrates men, materials, machines & supporting activities and others in a way that the best compromise is obtained.
• No layout can satisfy each and every principle of a good layout. Some criterion may conflict with other hence no layout is ideal. It has to integrate all factors into the best possible compromise.
2. Principle of minimum movement
• A good layout is one that permits the minimum movement between the operations. • Since straight line is the shortest distance between any two points, men and materials should be
made move along the straight path.
3. Principle of uni-directional flow
• A good layout is one that makes the material flow in only one direction that is only in forward direction towards final stage of completion without any backtracking.
• Backtracking and duplicated movements consume more time, involve unnecessary materials handling, add to cost and lead to inefficiency hence must be avoided by duplicating the necessary equipments..
Principles of Plant Layout Contd…
4. Principle of effective use of available space
• Raw materials, Work in Progress & finished goods should be piled vertically one above the another rather that being strewn on the floor.
• Area below the work tables, cupboards built in the wall are welcome since they reduce requirement of space.
5. Principle of maximum visibility
• A good layout is one that makes men, material, & machines readily observable at all times.
6. Principle of maximum accessibility
• A good layout is one that makes all servicing and maintenance points readily accessible. • Machines should be kept sufficiently apart and with reasonable clearance from the wall so that the
lubrication, adjustment & replacement of belts, removal of the parts at the time of repairs etc. can be done conveniently.
7. Principle of minimum handling
• A good layout is one that reduces the materials handling activity to its minimum. • Materials should be stored as close to the point of use as possible. • Materials should be handled in as bigger & convenient lots as possible.
Principles of Plant Layout Contd…
8. Principle of inherent safety
• A good layout is one that makes the plant safer for the workmen. • Fire protection equipments should be provided at strategic locations. • Gangways should be kept well lit. • One way traffic rule must be observed in areas of greater traffic.
9. Principle of maximum flexibility
• A good layout is one that can be altered later without much cost. • Future requirement must be taken into account while designing for the present. • Each machine should be self contained. i.e. it must have everything of its own like lubrication system,
cooling system, supplementary lighting, air system etc. • Multipurpose machines give flexibility over special purpose machines and process layout is more
flexible that product layout.
10. Principle of maximum security
• A good layout is one that safeguards the plant and machinery against fire, theft etc. without employing too many cages, doors and barriers.
Factors affecting Plant Layout
The factors affecting plant layout can be grouped into 8 categories:
1. Materials
• Main factors to be considered: size, shape, volume, weight, and the physical-chemical characteristics, since they influence the manufacturing methods and storage and material handling processes.
• The sequence and order of the operations will affect plant layout as well, taking into account the variety and quantity to produce.
2. Machinery
• Having information about the processes, machinery, tools and necessary equipment, as well as their use and requirements is essential to design a correct layout.
• Regarding machinery, we have to consider the type, total available for each type, as well as type and quantity of tools and equipment.
3. Labor
• Environment considerations: employees’ safety, light conditions, ventilation, temperature, noise, etc. • Process considerations: personnel qualifications, flexibility, number of workers required at a given
time as well as the type of work to be performed by them.
Factors affecting Plant Layout Contd…
4. Material Handling
• Material handling does not add value to the product; it’s just waste hence it is to be minimized as well as combined with other operations when possible, eliminating unnecessary and costly movements.
5. Waiting Time
• Objective: Continuous Material Flow through the facility, avoiding the cost of waiting time and demurrages that happen when the flow stops.
• On the other hand, the material waiting to flow through the facility not always represents a cost to avoid. As stock sometimes provides safety to protect production, improving customer service, allowing more economic batches, etc.
• It’s necessary then to consider space for the required stock at the facility when designing the layout.
• Resting time to cool down or heating up…
6. Auxiliary Services
• Support the main production activities at the plant: • Related to labor: Accessibility paths, fire protection installations, supervision, safety, etc. • Related to material: quality control. • Related to machinery: maintenance and electrical and water lines.
• The space dedicated to auxiliary services is usually considered as waste. • It’s important to have efficient services to insure that their indirect costs have been minimized.
Factors affecting Plant Layout Contd…
7. The building
• If it has been already selected, its characteristics will be a constraint at the moment of designing the layout, which is different if the building has to be built.
8. Future Changes
• It’s important to forecast the future changes to avoid having an inefficient plant layout in a short term.
• Flexibility can be reached keeping the original layout as free as possible regarding fixed characteristics, allowing the adjustment to emergencies and variations of the normal process activities.
Objectives of Facility Layout
The objectives of plant layout includes:
• Proper and efficient utilization of available floor space. • To ensure that work proceeds from one point to another point without any delay. • Provide enough production capacity. • Reduce material handling costs. • Reduce hazards to personnel. • Utilize labor efficiently. • Increase employee morale. • Reduce accidents. • Provide for volume and product flexibility. • Provide ease of supervision and control. • Provide for employee safety and health. • Allow ease of maintenance. • Allow high machine or equipment utilization. • Improve productivity.
Basic Layout Forms
The layout design generally depends on the products variety and the production volumes. There are the following type of layouts:
Product
Layouts
Fixed
Position
Layouts
Mixed Layouts Process Layouts
Quantity
Number of Different Products
• Product or Line layout • Group machines in a line to make a certain product -
Assembly Line
• Process or Functional layout • Machinery is placed according to what they do and
materials go to them.
• Fixed position or Location layout • Product stays and resources move to it.
• Hybrid, mixed or combined layout • (Variation of product layout) Machines are arranged so that
specific parts can be made in a group - then moved to next station (maybe even another plant).
• Cellular Layout
Product or Line Layout
Product Layout
• It is also called layout by sequence.
• The layout of the plant, shape and size of its buildings, location of services and storage yards, position of materials handling equipment is such that the material flows unidirectional and at steady rate.
• Special purpose machinery and equipment are employed & the equipments are duplicated, if needed, to avoid backtracking & to ensure material flow in forward direction always.
Suitability: Product layout is useful under following conditions:
1) Mass production of standardized products
2) Simple and repetitive manufacturing process
3) Operation time for different process is more or less equal
4) Reasonably stable demand for the product
5) Continuous supply of materials
Product or Line Layout
Product or Line Layout
Product or Line Layout
Advantages: Product layout provides the following benefits:
a) Low cost of material handling, due to straight and short route and absence of backtracking
b) Smooth and uninterrupted operations
c) Continuous flow of work
d) Lesser investment in inventory and work in progress
e) Optimum use of floor space
f) Shorter processing time or quicker output
g) Less congestion of work in the process
h) Simple and effective inspection of work and simplified production control
Disadvantages: Product layout suffers from following drawbacks:
a. High initial capital investment in special purpose machine
b. Heavy overhead charges
c. Breakdown of one machine will hamper the whole production process
d. Lesser flexibility as specially laid out for particular product.
Example: Wheel Rim Manufacture
Coil handling equipment – slit coils are fed into blank cutter
Blank cutter cuts pieces to exact length
Flat strip blank is rolled into a cylinder
Cylinder is flash welded
Cylinder is flared on each end to expand to outside
wheel dimensions
Wheel is roll formed though 3 or 4 successive expansions
to final wheel contour
The spider which was stamped on another line is mated with
the wheel and GMAW together
Process or Functional Layout
Process Layout
• It is also called layout by function.
• The factory is divided into process units (or departments), and within these process units all similar facilities are grouped together.
• For example, Presses, are kept at one place, milling machines are placed at another place, drilling machines are kept at same place, gear cutting machines are placed at another place and so on.
Suitability: Process layout is adopted when
1. Products are not standardized
2. Quantity produced is small
3. There are frequent changes in design and style of product
4. Job shop type of work is done
5. Machines are very expensive
Process or Functional Layout
T T T CG CG
T T T SG SG
M M D D D
M M D D D
Similar resources placed together
Process or Functional Layout
Process or Functional Layout
Advantages: Process layout provides the following benefits
a) Lower initial capital investment in machines and equipments. There is high degree of machine utilization, as a machine is not blocked for a single product
b) The overhead costs are relatively low
c) Change in output design and volume can be more easily adapted to the output of variety of products
d) Breakdown of one machine does not result in complete work stoppage
e) Supervision can be more effective and specialized
f) There is a greater flexibility of scope for expansion.
Disadvantages: Process layout suffers from following drawbacks
a. Material handling costs are high due to backtracking
b. More skilled labor is required resulting in higher cost.
c. Time gap or lag in production is higher
d. Work in progress inventory is high needing greater storage space
e. More frequent inspection is needed which results in costly supervision
Fixed Position or Location Layout
Fixed Position Layout of a ship
Suitability: The fixed position layout is followed in following conditions
1. Manufacture of bulky and heavy products such as locomotives, ships, boilers, generators, wagon building, aircraft manufacturing, etc.
2. Construction of building, flyovers, dams.
3. Hospital, the medicines, doctors and nurses are taken to the patient (product).
Fixed Position or Location Layout
Fixed Position or Location Layout
Advantages: Fixed position layout provides the following benefits
a) It saves time and cost involved on the movement of work from one workstation to another.
b) The layout is flexible as change in job design and operation sequence can be easily incorporated.
c) It is more economical when several orders in different stages of progress are being executed simultaneously.
d) Adjustments can be made to meet shortage of materials or absence of workers by changing the sequence of operations.
Disadvantages: Fixed position layout has the following drawbacks
a. Production period being very long, capital investment is very heavy
b. Very large space is required for storage of material and equipment near the product.
c. As several operations are often carried out simultaneously, there is possibility of confusion and conflicts among different workgroups.
Combined layout
• Group of equipment and workers that perform a sequence of operations over multiple units of an item or family of items.
• Actually, most manufacturing facilities use a combination of layout types.
• An example of a hybrid layout is where departments are arranged according to the types of processes but the products flow through on a product layout.
• For instance, supermarket layouts are fundamentally of a process nature, and however we find most use fixed-path material-handling devices such as roller-type conveyors both in the stockroom and at checkouts, and belt-type conveyors at the cash registers.
• Hospitals also use the basic process arrangement, although frequently patient care involves more of a fixed-position approach, in which nurses, doctors, medicines, and special equipment are brought to the patient.
Cellular layout
• Cellular manufacturing is a type of layout in which machines are grouped into what is referred to as a cell.
• Groupings are determined by the operations needed to perform work for a set of similar items, or part families that require similar processing.
• These relate to the grouping of equipment and include faster processing time, less material handling, less work-in-process inventory, and reduced setup time.
• Used when the operations system must handle a moderate variety of products in moderate volumes
Cellular layout
T T T
M
M M T
M
SG CG CG
SG
D D D
D
Resources to
produce similar
products placed
together
A cluster or cell
Material Handling
Material Handling
• Material handling is the function of moving the right material to the right place in the right time, in the right amount, in sequence, and in the right condition to minimize production cost.
• The cost of MH estimates 20-25 of total manufacturing labor cost in the United States [The Material Handling Industry of America (MHIA)]
• Layout design and material handling system design are inseparable. • There is usually more than one “best” solution to the material handling system
design. • In a typical facility, material handling accounts for 25% of all employees, 55% of all
factory space, and 87% of production time. • Material handling does not add value to your product. Therefore, it must be
minimized, if not eliminated, in order to achieve significant cost savings.
Principles of Material Handling
The principles of material handling may be studied under the following head:
1. The Planning Principle
• Large-scale material handling projects usually require a team approach. • Material handling planning considers every move, every storage need, and any delay in order to
minimize production costs. • The plan should reflect the strategic objectives of the organization as well as the more immediate
needs.
2. The systems principle
• MH and storage activities should be fully integrated to form a coordinated, operational system that spans receiving, inspection, storage, production, assembly, shipping, and the handling of returns.
3. Simplification principle
• simplify handling by reducing, eliminating, or combining unnecessary movement and/or equipment. • Four questions to ask to simplify any job:
• Can this job be eliminated? • If we can’t eliminate, can we combine movements to reduce cost? (unit load concept) • If we can’t eliminate or combine, can we rearrange the operations to reduce the travel distance? • If we can’t do any of the above, can we simplify?
Principles of Material Handling contd…
4. Gravity principle
• Utilize gravity to move material whenever practical.
5. Space utilization principle
• The better we use our building cube, the less space we need to buy or rent. • Racks, mezzanines, and overhead conveyors are a few examples that promote this goal.
6. Unit load principle
• Unit loads should be appropriately sized and configured at each stage of the supply chain. • The most common unit load is the pallet
• cardboard pallets • plastic pallets • wooden pallets • steel skids
7. Automation principle
• MH operations should be mechanized and/or automated where feasible to improve operational efficiency, increase responsiveness, improve consistency and predictability, decrease operating costs.
Principles of Material Handling contd…
8. Equipment selection principle
• Why? What? Where? When? How? Who? • If we answer these questions about each move, the solution will become evident.
9. The standardization principle
• standardize handling methods as well as types and sizes of handling equipment • too many sizes and brands of equipment results in higher operational cost. • A fewer sizes of carton will simplify the storage.
10. The dead weight principle
• Try to reduce the ratio of equipment weight to product weight. Don’t buy equipment that is bigger than necessary.
• Reduce tare weight and save money.
11. The maintenance principle
• Plan for preventive maintenance and scheduled repairs of all handling equipment. • Pallets and storage facilities need repair too.
Principles of Material Handling contd…
12. The capacity principle
• use handling equipment to help achieve desired production capacity • i.e. material handling equipment can help to maximize production equipment utilization
Material Handling Equipments
Material handling equipment includes:
• Lifting and lowering devices: These devices are used for lifting and lowering the material in a vertical direction only. • Block and Tackle • Hand and power winches • Hoists • Elevators • Cranes
• Transporting devices: These devices are used for transporting the material in Horizontal direction. • Wheel Barrows • Hand and power trucks • Industrial narrow railways • Tractors and trailers • Aerial tram ways
Material Handling Equipments contd…
• Devices which lift and transport: These devices are used for lifting, transporting and lowering the material.
• Chutes • Spiral Rollers • Hoists with trolleys running on overhead rails • Fork lift truck • Crane trucks • Conveyors • Spiral chutes
Material Handling Equipments Lifting and lowering devices
Block and Tackle & Hoist
Block and Tackle Hoist
Material Handling Equipments Lifting and lowering devices
Hand and power winches
Hand Winch Power Winch
Material Handling Equipments Lifting and lowering devices Elevators
Traction
Elevator
Bucket
Elevator
Material Handling Equipments Lifting and lowering devices
Pillar Crane & Overhead Crane
Pillar Crane Overhead Crane
Material Handling Equipments Lifting and lowering devices
Gantry Crane & Jib Crane
Gantry Crane Jib Crane
Material Handling Equipments Transporting devices
Wheel Barrows & Hand Trucks
Hand Truck
Hand Pallet Truck
Wheel Barrow
Platform Hand Truck
Material Handling Equipments Transporting devices
Industrial narrow railways & Tractor and trailers
Industrial railways
Tractor trailer
Material Handling Equipments Lifting & Transporting devices
Chutes
Chute
Spiral Chute
Material Handling Equipments Lifting & Transporting devices
Fork lift truck & Crane Truck
Fork Lift Truck
Crane Truck
Material Handling Equipments Lifting & Transporting devices
Conveyors
Screw Conveyor Chain Conveyor
Roller Conveyor
Belt Conveyor Bucket Conveyor
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