Upload
florence-goodman
View
217
Download
0
Embed Size (px)
Citation preview
Transportation in a Supply Chain
By
Dr. Debadyuti Das
Importance of transportation in Supply Chain
Transportation provides significant link among various stages in the supply chain
Significant component of the costs incurred by most supply chains (5-6% of the recommended retail price of the product)
Transportation activity represents around 10% of the GDP of USA
Transportation-related activity accounts for 16% of total US occupational employment
Examples- Indian Army- Dell Computers- Wal-Mart- IKEA- Seven-Eleven Japan
Importance of transportation in Supply Chain
Transportation strategy in tune with overall supply chain strategy
Transportation-related decisions significantly affect cost as well as responsiveness of the supply chain.
Facility, location, transportation and inventory management are inter-related decisions.
Drivers of transportation decisions Transportation cost structures Impact of product characteristics Impact of demand characteristics
Drivers of transportation decisions Transportation cost structures
- Function of distance and quantity of goods shipped
- Economies of distance (with longer distances)
- Economies of scale (with increase in shipment weight)
- Driver and crew-related costs are a function of the distance and do not depend on load.
Truck Freight Rates (Rs/ tonne) for a Nine-tonne Shipment
Source: The Hindu Business Line, 06 November, 2006
Drivers of transportation decisions Impact of product characteristics
- Value-density (the ratio of rupee value of the product to its weight) reveals the importance of transportation cost in the overall product cost.
- Value-density captures transportation-inventory trade-off
Inventory carrying cost is a function of the value of the product
Transportation cost is a function of the weight of the product.
Drivers of transportation decisions- For high value-density product (High-technology products), firms can use faster and expensive mode of transportation- For low value-density product (cement, coal etc.), firms have to use slower mode of transportation - For bulky products like water storage tanks, cycles etc. T.C. is captured by the physical volume rather than the weight- In air-freight industry, volumetric weight is measured and freight rate is charged based on physical wt or volumetric wt, whichever is higher
Drivers of transportation decisions Impact of demand characteristics
- Volume of demand (cycle stock)
- Uncertainty associated with the product demand (safety stock)
- Long lead time (high safety stock)
- Faster mode of transport for high uncertainty products
- Slower mode of transport for products that have a stable demand
Drivers of transportation decisions Carrier (party that moves or transports the product)
Vehicle-related cost Fixed operating cost Trip-related cost
Shipper (party that requires the movement of the product between two points in the supply chain) Transportation cost Inventory cost Sourcing cost Facility cost Information processing cost
Mode of transportation
Rail Road Air Package Carriers Water Pipeline
Mode of transportation (Rail)
Suitable for low value-density products Long and unreliable lead time Off-track delays (at pickup and delivery end) Accounts 30% of freight movement in India Very high in-transit damages and losses 95% of the freight carried is in bulk goods
and within that coal accounts for 50% of the traffic.
Mode of transportation (Road) Trucks account for about 65% of freight
movement in India More expensive than rail, but offers the
advantages of door-to-door delivery and shorter delivery time
Low freight rate and poor quality of service Unreliable transit time High in-transit damages
Mode of transportation (Water) One of the cheapest modes of transport Very large loads at very low cost Slowest amongst all Limited to certain geographic areas Ocean, inland waterway system, coastal
waters Considerable delays at ports in loading and
unloading Extensively used for international cargo
Mode of transportation (Air)
Expensive Rapid and reliable delivery Small, time-sensitive and high value-
density goods Preferred mode for e-businesses (e.g.,
Amazon, Dell, McMaster-Carr) Consolidation of shipments (especially
important for package carriers that use air as a primary method of transport)
Mode of transportation (Pipelines) High fixed cost Primarily for crude petroleum, refined
petroleum products, natural gas Best for large and predictable demand Used for getting crude oil to a port or refinery,
but not for getting refined gasoline to a gasoline station
Multi-modal Use of more than one mode of transportation to move a
shipment to its destination Most common example: rail/truck Also water/rail/truck or water/truck Grown considerably with increased use of containers Increased global trade has also increased use of multi-
modal transportation More convenient for shippers (one entity provides the
complete service) Key issue involves the exchange of information to facilitate
transfer between different transport modes
Comparison of modes of transportation on SC performance measures Freight cost Lot size Delivery time Delivery time variability Losses and damages
Relative ranking of modes of transportation by performance measures
Mode of transportation
Cost (1 = least)
Lot size (1= smallest)
Delivery time (1= fastest)
Delivery time variability (1= least)
Loss and damage (1=least)
Rail 2 3 3 3 4
Road 3 2 2 2 3
Water 1 4 4 4 1
Air 4 1 1 1 2
Total cost approach to performance measures
Total cost =
Transportation cost + Cycle stock inventory carrying cost + Pipeline inventory carrying cost + Safety stock inventory carrying cost + Cost of losses and damages
Cost comparisons for different modes of transport for different varieties of productProblem:
A global company has decided to use India as its manufacturing base for the supply of printers to the European markets. The company offers three types of printers: high-end, standard and low-end. The three models of the printers cost Rs. 20,000, 15,000 and 10,000 per unit respectively. If the firm decides to use air as the mode of transport, it can fly the goods in smaller lots of 100 units, while shipping via sea requires a minimum shipment size of 400 units. Transportation and customs clearance take 1 week if air is used as the mode of transport. The same will take 4 weeks, if sea is used as the medium of transport. The freight by air will be Rs 360 per unit while freight by sea will be Rs 90 per unit. The annual inventory carrying cost for the firm is 20% of the cost of the item.
Cost comparisons for different modes of transport for different varieties of product Case 1: The demand in Europe is stable at 100
units per week for each of the three types of printers (Demand is stable)
Case 2: Average demand in Europe is 100 units per week for each of the three types of printers and standard deviation of demand is 30 units per week (Demand is variable)
The firm has to decide on the optimum mode of transport for different varieties of product under different situations.
Cost comparisons for different modes of transport under stable demand
Product Mode of transport
Cycle-stock
Pipeline inventory
Average inventory
Inventory carrying cost (‘000)
Transportation cost (‘000)
Total cost per annum (‘000)
High end Sea
Air
200
50
400
100
600
150
2400
600
468
1872
2868
2472
Standard Sea
Air
200
50
400
100
600
150
1800
450
468
1872
2268
2322
Low end Sea
Air
200
50
400
100
600
150
1200
300
468
1872
1668
2172
Cost comparisons for different modes of transport under demand uncertaintyProduct Mode of
transportTotal cost per annum for stable demand (‘000)
Safety stock inventory carrying cost (‘000)
Total cost
High end Sea
Air
2868
2472
480
240
3348
2712
Standard Sea
Air
2268
2322
360
180
2628
2502
Low end Sea
Air
1668
2172
240
120
1908
2292
Distribution network design optionsA garment manufacturing plant has three plants
(A, B and C), each manufacturing a different product line and serving a stable market through three depots (X, Y and Z). Plant A is manufacturing men's wear, plant B ladies’ wear and plant C children’s wear. Each of the plant will be supplying to all the three depots.
Distribution network design options Ship directly from each plant to each market
-Stable demand with high volume- High cycle inventory
Aggregate demand across depots and using Milk Run from each plant- Increase in frequency of visit - Increase in transportation cost- Lower cycle stock
Ship Via Distribution centre- Cycle stock almost similar to Milk Run option- Transportation cost higher than Direct shipping, but lower than Milk Run option- Setting up of an additional facility at DC - Additional loading and unloading costs at DC
Distribution network design options Hub and Spoke Model
- Large number of time-sensitive small-size shipments- All the destinations in a region are inter-connected through a central hub- Originate from geographically dispersed areas- To be distributed over large geographical areas
Comparison of Distribution network design optionsConsider the same problem. Weekly demand at each of the three
depots is 100 units for each of the three types of garments. A truck can carry 300 units of garments and the transportation cost is Rs. 2 per km for FTL shipments. To obtain economies of scale, the firm has decided to work with FTL shipments and all the trips will carry 300 units of garments. The firm can bundle men’s wear, ladies’ wear and children’s wear in one trip, but all together it can carry only 300 units in one trip. The inventory carrying cost is 20% of item cost per annum. All the products cost Rs 200 per unit. The facility cost of maintaining a DC is Rs 12,000 per year.
In the Direct shipping option, 3 week’s worth of demand will be supplied in every trip and the cycle will be repeated in every 3 weeks. In the other two options, each trip will have 1 week’s worth of supply and the cycle will be repeated every week.
Transportation strategy: linking plants to depots
Spatial data representation
A 100
B 50
C 0
100
Z 200
Y
X
O
PlantsDepots
DC
Computation of distances
Location (X. Y) Coordinates Trip Distance
A (O, 100) AX, BY, CZ 200
B (0, 50) AZ, CX 223.6
C (0, 0) AY, BX, BZ, CY 206.15
X (200, 100) XY, YZ 50
Y (200, 50) AO, CO, OX, OZ 111.18
Z (200, 0) BO, OY 100
O (100, 50)
Relevant costs
Transportation costs Inventory carrying costs
Comparison of three shipping strategies
Option Distance traveled in one cycle
Frequency of transport cycle
Annual transport cost
Annual facility cost
Premium garment (Avg garment cost: Rs 200)
Annual Annual
Inv cost TC
Low-end garment (Avg garment cost: Rs 75)
Annual Annual
Inv cost TC
Direct shipping
3,744 Once in three weeks
1,29,781 0 54,000 183781 20250 150,031
Milk Run 1,560 Once a week
1,62,191 0 18,000 180191 6750 168,941
Shipping via DC
1,294 Once a week
1,34,620 12,000 18,000 164620 6750 153,370
Transportation costs in E-Retailing Benefits of keeping inventory at a central location Increase in transportation costs Shipping charges by E-Retailers
- Consist of a fixed and a variable component- Depends on the type of the items shipped e.g. books, DVDs, Computer, groceries, sport items, automotive items
Firstandsecond.com, Indian E-Retailer of books charges 7% of the order value or Rs 30, whichever is higher for standard shipping of order value of less than Rs. 5000.
Impact of transport cost on Business performance of E-Retailers Dell Computer Amazon.com Webvan
Items Avg price
Avg weight
Value-density
Shipment Transport cost*
Shipping cost as a % of price
Laptop $1500 3 kg $500/kg 1 laptop 12.4 0.8
Book $15 0.5 kg $30/kg 3 books 6.0 13.3
Grocery $5 1 kg $5/kg 10 kg 18.2 36.4
Impact of transport cost on Business performance of E-RetailersE-Retailing is suitable for high-variety, high
value-density and high demand uncertainty products