Building Technology Engineering BENG Highways and Transportation Engineering. Instructor: Dr. Yahya R Sarraj
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1 Building Technology Engineering Highways and Transportation Engineering BENG 4326 Instructor: Dr. Yahya R Sarraj Associate Professor of Transportation
2 Traffic & Highway Engineering Text Book Fourth Edition, SI Nicholas J. Garber Lester A. Hoel 2010
3 Chapter 2 Transportation Systems and Organizations
4 Chapter 2 Transportation System & Organization Developing a Transportation System Modes of Transportation Transportation Organization
5 Chapter 2 Transportation Systems and Organizations SUMMARY The transportation system in a developed nation consists of: a network of modes that have evolved over many years. Modes = means of transportation (وسائط أو وسائل النقل)
6 Chapter 2 Transportation Systems and Organizations The transportation system consists of the following elements:,مركبات Vehicles,طرق ومسارات guide ways terminal facilities,محطات and نظام إدارة وتحكم control systems
7 Chapter 2 Transportation Systems and Organizations The elements of transportation system operate according to established procedures and schedules: in the air, on land, and on water. The system also requires interaction with: the user, the operator, and the environment.
8 Chapter 2 Transportation Systems and Organizations 2.2 MODES OF TRANSPORTATION Freight and Passenger Traffic Intercity freight transportation نقل البضائع بين المدن Principal modes: Highways (truck) Railroads Water pipelines
9 Chapter 2 Transportation Systems and Organizations 2.2 MODES OF TRANSPORTATION Intercity passenger transportation نقل الركاب بين المدن Principal mode: Highways (automobile, passenger car) Air Transit (bus) Railroads
10 Chapter 2 Transportation Systems and Organizations Urban Transport Urban passenger travel involves auto or public transit; urban freight is primarily by truck.
11 Chapter 2 Transportation Systems and Organizations Summary The principal carriers of freight are rail, truck, pipeline, and water. Passenger transportation is by auto, air, rail, and bus. Highway transportation is the dominant mode in passenger travel. The United States highway system comprises 6.3 million km of roadway.
12 Chapter 2 Transportation Systems and Organizations Highway Transportation Highway transportation is: the dominant mode in passenger travel and one of the principal freight modes.
13 Chapter 2 Transportation Systems and Organizations
14 Chapter 2 Transportation Systems and Organizations Public Transportation Transit services available to urban and rural residents Transit modes: Mass transit (buses, light rail, rapid transit) Paratransit (taxi, car rental, dial-a-ride..) Ridesharing (carpool, vanpool, share-ride taxi)
15 Chapter 2 Transportation Systems and Organizations Do people prefer to use public transportation? Yes No Why? distance from bus stops long waits at bus stops changing buses long journey time inconvenience on bus
16 Mode Selection How do a passenger or shipper select a transportation mode?
17 Chapter 2 Transportation Systems and Organizations The passenger or shipper thinks of each mode in terms of the level of service provided. Each mode offers a unique set of service characteristics at a given price: travel time, frequency, comfort, convenience, reliability, and safety. The traveler or shipper selects the mode based on how these attributes are valued.
18 Mode Selection Solved Example
19 Chapter 2 Garber P29 Transportation System Comparative Advantages of Transportation Modes Example 2.1 Selecting a Transportation Mode (Garber p29) An individual is planning to take a trip between the downtown area of two cities, A and B, which are 400 km apart. There are three options available: Travel by air. This trip will involve driving to the airport near city A, parking, waiting at the terminal, flying to airport B, walking to a taxi stand, and taking a taxi to the final destination.
20 Chapter 2 Garber P29 Example 2.1 -cont. Travel by auto. This trip will involve driving 400 km through several congested areas, parking in the downtown area, and walking to the final destination. Travel by rail. This trip will involve taking a cab to the railroad station in city A, a direct rail connection to the downtown area in city B, and a short walk to the final destination.
21 Chapter 2 Garber P29 Example 2.1 -cont. It is a business trip The traveller is willing to pay $25 for each hour of travel time reduced 1. Which mode is selected based on travel time and cost factors alone? 2. What other factors might be considered?
22 Chapter 2 Garber P29 Example Solution: Since travel time is valued at $25/hr, the following costs would be incurred: Air: (5) = $375 Auto: (8) = $400 Rail: (12) = $450 In this instance, the air alternate reflects the lowest cost and is the selected mode. Other factors: Safety, reliability and convenience.
23 Chapter 2 Transportation Systems and Organizations Comparative Advantages of Transportation Modes Students are requested to read this topic and to discuss it in the next lecture Page No. 9
24 Transportation Systems and Organizations Highway Project Development Process
25 Chapter 2 Transportation Systems and Organizations Highway Transportation The Highway Project Development Process 1. Planning (6 to 24 months) 2. Design (15 to 24 months 3. Environment (9 to 36 months) 4. Right-of-Way (6 to 21 months) 5. Construction (12 to 36 months) Thus, total project time can range from 4 to 12 years, depending on the physical characteristics, scope, and community support for the project.
26 Chapter 2 Transportation Systems and Organizations Six-step process for transportation projects: 1. Select Project 2. Investigate Alternates 3. Obtain Final Approval 4. Develop Project Design 5. Prepare for Construction 6. Construct the Project
27 Chapter 2 Transportation Systems and Organizations Cost of highways.. Estimate the cost of building 1km length of a 30m wide road. Sources of Funds for Highways 1. Highway users (direct taxes) 2. Property owners 3. Government (general taxes)
28 Solved Example Highway Finance
29 Chapter 2 Garber P33 Example 2.2 Computing the Toll to Maximize Revenue Using a Supply- Demand Curve : A toll bridge carries 5000 veh/day. The current toll is 150 cents. When the toll is increased by 25 cents, traffic volume decreases by 500 veh/day. Determine the amount of toll that should be charged such that revenue is maximized. How much additional revenue will be received?
30 Chapter 2 Garber P33 Example Solution: Let x = the toll increase in cents. Assuming a linear relation between traffic volume and cost, the expression for V is:
31 Chapter 2 Garber P33 Example Solution:
32 Chapter 2 Transportation Systems and Organizations Figure 2.7 Dwight D. Eisenhower System of Interstate and Defense Highways
33 Chapter 2 Transportation Systems and Organizations Figure 2.8 National Highway System
34 Chapter 2 Transportation Systems and Organizations Live Traffic Coverage
35 Highway System, Gaza Strip
36 Chapter 2 Transportation Systems and Organizations Transportation Organizations 1. Private Transportation Companies 2. Regulatory Agencies 3. Federal Agencies 4. State and Local Agencies and Authorities 5. Trade Associations 6. Professional Societies 7. Users of Transport Services
37 Chapter 2 Transportation Systems and Organizations Comparative Advantages of Transportation Modes Students are requested to read this topic and to discuss it in the next lecture Follow up
38
39 Roads and highway network
40 Roads and highway network principal types of road pattern in urban areas. Gridiron Linear pattern Radial pattern
41 Roads and highway network Gridiron Advantages: 1. Easier for surveyors to set out, using straight lines and rectangular coordinates. 2. It encourages an equal spread of traffic over the grid, therefore, the impact at particular location is reduced. 3. It facilitates the implementation of one-way street systems. 4. If there is a central business area in the middle of the grid, it is easy for through traffic to bypass it. Disadvantages: 1. Extra distances must be travelled when going in a diagonal direction. 2. Providing a diagonal route has an unfortunate effect on the buildings producing acute angles.
42 Roads and highway network Gridiron Omar Elmokhtar Example of Gridiron System Part of Gaza
43 Roads and highway network Linear pattern Advantages: 1. Main traffic flow is canalised into one major roadway. Disadvantages: The major roadway serves as a route both to the completely internal traffic and for the internal-external traffic as well as for external-internal and through traffic... This leads to congestion and the major roadway becomes overloaded.
44 Roads and highway network Linear pattern Example of Linear System Part of Nabuls
45 Roads and highway network Radial pattern Moscow city
46 Roads and highway network Radial pattern Mainly in old cities Advantages: Providing a direct access to the town centre. Disadvantages: 1. Concentration of traffic generators within the central area 2. Radial roads converging on the main sources of attraction 3. Lack of suitable bypass routes for through traffic.
47 Chapter Roads and highway network Radial pattern Example of radial System Part of London
48 Roads and highway network Radial pattern Example of radial System Erbil, Iraq
49 Road classification
50 Road classification (road hierarchy concept) Road classification Roads are classified as follows: In the USA Arterials: Principal (freeways) Minor Collector streets Local streets Source: O Flaherty (2006), page 140
51 Road classification See Table 6.5, O Flaherty (2006), page 142 Urban Roads are classified as follows: In the UK Primary Distributor District Distributor Local Distributor Access roads Pedestrian streets Rural Roads are classified as follows: In the UK Primary Routes (motorways) Secondary roads: A roads B roads Source: O Flaherty (2006), page 141
52 Chapter Road classification Source: O Flaherty (2006), page 142
53 Road classification Source: O Flaherty (2006), page 142
54 Road classification Source: O Flaherty (2006), page 142
55 Road classification In Gaza (Palestine): Main Road Serves for national or inter district traffic Regional road Branching off from, or lining, main roads Access Road Leading from a main or regional road to a certain point within a locality
56 Road classification
57 Roads in Gaza Further Readings حالة الطرق المرورية في قطاع غزة - مشاكل وتوصيات أ. د. محمد علي الكحلوت مجلة جامعة الملك سعود شبكة النقل البري في مدينة غزة رسالة ماجستير عام 2012 للباحث أحمد يوسف شبات
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