Highway And Railroad Engineering PDF

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This document contains information about highway and railroad engineering. It covers topics like different transportation modes and highway alignment. The notes are suitable for undergraduate-level students.

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HIGHWAY AND RAILROAD ENGINEERING
 ROAD
HIGHWAY AND RAILROAD ENGINEERING

Different modes Conclusion
Highway Alignment
of Transportation

Scope of Highway
Engineering Road Patterns and
Planning Surveys
Design Criteria for
Highways route
definition
❖Roads are generally constructed on
small embankments, slightly above
the general ground level, to avoid
difficult drainage and maintenance
problems. What is
❖Such roads are therefore termed
highways, and the science and
technology dealing with roads are
HIGHWAY
generally
engineering.
called highway
ENGINEERING?
Scope of HIGHWAY ENGINEERING
HIGHWAY GEOMETRIC
1 DEVELOPMENT 6 DESIGN AND
LOCATION

PAVEMENT
2 PLANNING 7 DESIGN

CONSTRUCTION
3 ALIGNMENT 8 AND MAINTENANCE

HIGHWAY ECONOMIC
4 MATERIAL 9 CONSIDERATION

TRAFFIC FINANCIAL AND
5 CONTROL 10 ADMINISTRATION
 DEVELOPMENT, Historical Background, the basis for
PLANNING, AND planning, master plan, engineering surveys,
and highway alignments.
LOCATION
MATERIALS, Highway material and mix design, highway
construction, earthwork, construction of different
CONSTRUCTION, AND types of pavements, WBM, pavement failure,
pavement evaluation, maintenance of pavements
MAINTENANCE
HIGHWAY DESIGN, Road geometrics and design, rigid and
GEOMETRICS, AND flexible pavement, design factors and
thickness, and drainage system design.
STRUCTURE
ECONOMICS, Road user cost and economic analysis of highway
FINANCES, AND projects, pavement types and maintenance
measures, and highway finance
ADMINISTRATION
Traffic studies analysis, need for new road
TRAFFIC PERFORMANCE links, traffic regulation and control,
AND ITS CONTROL intersection design and their controls with
signs, signals, and markings

Scope of HIGHWAY ENGINEERING
Major modes
ROADWAYS OR
HIGHWAYS

WATERWAYS AIRWAYS
MODES OF
TRANSPORTATION
RAILWAYS
 ❖ Road patterns refer to the layout or arrangement of
What is streets, lanes, and thoroughfares within a city or
town.

ROAD PATTERN? ❖ These patterns play a crucial role in shaping the flow
of traffic, pedestrian movement, and overall
accessibility.

ROAD PATTERN
 types
RECTANGULAR/ HEXAGONAL
BLOCK PATTERN ROAD PATTERN
Types of The area is divided into a Hexagonal pattern is a

ROAD PATTERN
rectangle or block- network of roadways that form
a hexagonal shape. Three
shaped plots to create a roads intersect with the
rectangle or block constructed region at each
pattern. corner of the hexagon.
 Pros & cons RECTANGULAR/BLOCK
PATTERN

ADVANTAGES DISADVANTAGES
To construct back-to-back This pattern is inconvenient
buildings with front-facing since the roads are
roadways, the rectangular perpendicular at junctions,
plots may be further divided
causing the traffic to
into smaller rectangular blocks.

ROAD
Construction and converge towards a single
maintenance of highways point.
using this design are relatively
simpler.

PATTERN
 Pros & cons HEXAGONAL ROAD
PATTERN
ADVANTAGES DISADVANTAGES
Travel time and distance There should be enough
are cut down. traffic signs, pavement
Reduced traffic congestion markings, and illumination
to alert vehicles to lower

ROAD
their travel speed and
minimize the risk of
accidents.

PATTERN
 MINIMUM TIME
types
TRAVEL PATTERN
The town is served by sector
centers, suburban facilities, and
neighborhood centers in this road
plan, all of which are connected to
the city center by a highway that
can be reached in the shortest
amount of time. Also, the shortest
roads interconnect the city center GRID PATTERN
with neighboring and suburban
centers. The alignment of the road A network of intersecting parallel

Types of is made straight to shorten it. lines, real or imaginary, is referred to
as a grid. When seen from above, this

ROAD PATTERN
pattern is made up of streets that
connect at right angles to form
squares. A physical network not
always constructed of straight or
parallel lines may also be called a
grid.
 Pros & cons MINIMUM TIME
TRAVEL PATTERN
ADVANTAGES DISADVANTAGES
The potentially dangerous The right amount of traffic
collisions are almost signs, pavement markings,
eliminated. and illumination should be
in place to alert vehicles to

ROAD
slow down.
For senior drivers,
intersections may be
particularly difficult.

PATTERN
 Pros & cons GRID PATTERN

ADVANTAGES DISADVANTAGES
Grids benefit pedestrians Grids are dangerous for
motorists and bicycles because
since there are several
they contain numerous
routes from point A to junctions and many potential
point B. conflict places.

ROAD
Grids benefit restaurants Grids may encourage
individuals to take shortcuts
and retail establishments
through residential areas.
since they provide Grids don't work well in places
several corner lots. with many hills since they result
A grid's navigation is in unnecessarily steep streets.

PATTERN
Traffic mayhem may readily
quite simple.
occur on a grid that is uneven
or unfinished.
RADIAL road pattern

Radial or Star and Radial or Star and Radial or Star and
Grid pattern Block pattern Circular pattern
This type of road network combines radial This network is a combination of radial and
This kind of road network combines radial
and block road patterns. The whole area circular road patterns. It is a road pattern in
and grid patterns. From the center, a
is arranged into a block-pattern road which the major roadways, or radial roads,
radial network of roads radiates outward.
network that runs between the radial radiate outward from the center and are
The grid pattern is then used to
main streets and radiates outward from joined by the ring roads, or concentric roads,
interconnect the main radial streets.
the center. which likewise radiate outward.

TYPES OF ROAD PATTERN
 Pros & cons RADIAL OR STAR &
GRID PATTERN
ADVANTAGES DISADVANTAGES
It increases the There should be sufficient
effectiveness of land usage distance between splitter
unit density. islands.
It has a high percentage of High construction cost for

ROAD
3-way intersections, offering additional traffic lights and
great vehicle safety. road markings.
Cut-through traffic is
reduced.

PATTERN
 Pros & cons RADIAL OR STAR &
BLOCK PATTERN
ADVANTAGES DISADVANTAGES
Safer when compared to a Lack of safety equipment
rectangular pattern. such as post-support bases,
It reduces congestion at crash attenuators, and rail
the main bottleneck point. transitions.

ROAD
If one radial route is closed,
another may be utilized as
an alternative.

PATTERN
 Pros & cons RADIAL OR STAR &
CIRCLE PATTERN
ADVANTAGES DISADVANTAGES
Compared to the Its design is complex, and it isn't
abovementioned patterns, it is easy to provide a decent curve.
safer since all the traffic moves It impacts driving abilities (most
drivers experiencing this issue are
in the same direction. senior citizens).
This traffic plan includes

ROAD
The appropriate installation of
roundabouts, which enhances traffic signals, road markings, and
traffic flow. Additionally, this illumination is required to alert the
lowers the vehicle's fuel driver.
consumption. Splitter islands must be made long
Lowers the chances of rear- enough to include a crosswalk and
a roundabout description
end collisions.

PATTERN
 types
HORIZONTAL VERTICAL
ALIGNMENT ALIGNMENT
road comprises a series consists of straights
of straight lines known as connected by parabolic

Types of tangents with the provision
of curves to change
direction
curves, which need to be
provided at all changes in
gradient

ALIGNMENT
 AVAILABILITY OF
OBLIGATORY POINTS CONSTRUCTION TRAFFIC
MATERIALS

The controlling points Should suit traffic
which govern the For bringing down the requirements,
highway alignment are cost of construction Origin and destination
known as obligatory and maintenance cost studies should be
points. it is important to have carried out and
It is divided into two easy availability of desired line should be
parts, points through natural building drawn.
which the alignment material. The new roads aligned
should pass and points should keep in view
through which the desired line, traffic
alignment should not patterns, and future
pass. trends.

FACTORS AFFECTING ROAD ALIGNMENTS
 ECONOMIC GEOLOGICAL LAND
CROSSING FACTOR FACTOR AQUISITION

Availability of land
The provision of The alignment Alignment for the construction
stream crossing, finalized based on should be made of the highway is
all factors should in such a way
river crossing necessary,
also be
and railway that no serious If alignment should
economical. be such that
crossing along The initial cost, the difficulties are
considerable built-
the road maintenance cost, met from the up area and
alignment vehicle operating geological point cultivated land
should be cost should be of view of the area are to be
properly studied. taken into locality, e.g. acquired, it will
account. earthwork, prove to be difficult,
costly and time-
landslides. consuming.

FACTORS AFFECTING ROAD ALIGNMENTS
PLANNING SURVEYS ❖A highway should be planned according to
the volume of daily traffic flow from a
OBJECTIVE particular path. For this purpose, a proper
survey must be done to collect adequate
data.
❖The highways development must be
efficient, but at a minimum cost, especially
in developing and underdeveloped
countries.
❖The highways should be safe and secure.
❖The planning must have a forecast for the
next several years to plan fixed periods for
maintenance, renewal, and widening.

OBJECTIVE
 Possible alignment can be fixed based on the
following details available on the map :

Any Alignment passing through valleys,
lakes, and ponds.
Location of bridges for crossing rivers.
Availability of a mountain passing a
mountain range.
Joining of two stations at different elevation
by taking a suitable ruling gradient.
Determination of the length of the roadway
TYPES OF using contour interval and ruling gradient.

HIGHWAY PLANNING
SURVEYS
MAP SURVEY
 The purpose of the reconnaissance survey is to
eliminate those routes or sites that are impractical or
unfeasible and to identify the more promising routes or
sites.

OBJECTIVE OF RECONNAISSANCE SURVEY
Collect the details of obstruction along the route which
are not available on the map. e.g. valleys, ponds, lakes,
marshy land, ridge, hills, permanent structure, etc.
To collect geological features of the field.
To collect information regarding the availability of local
construction material, water, and labor.
To determine the approximate values of a gradient,

TYPES OF
length of gradients and radius of curves of alternate
alignments.
To locate the obligatory points along the alternative

HIGHWAY PLANNING
routes.
To determine an approximate estimate of the total cost of
construction of the road along each route.

SURVEYS To determine two or three best possible routes.

RECONNAISSANCE STUDY
 Type of survey in which adequate data is
collected to prepare a plan/map of the area
to be used for planning and design.

OBJECTIVE OF PRELIMINARY SURVEY
To survey along the various alignments found after
the reconnaissance and to collect all necessary
physical information and details of topography,
drainage, and soil.
To compare the different proposals given the
requirements of good road alignment.
To estimate the cost of constructing the road
TYPES OF including bridges and other construction aspects
along each alternative alignment of the road.
HIGHWAY PLANNING To finalize the best alignment from the construction,
maintenance, and traffic operation point of view.

SURVEYS
PRELIMINARY SURVEY
 The detailed examination of the field along
the alignment finally recommended during
the preliminary survey

OBJECTIVE OF PRELIMINARY SURVEY
The alignment finalized at the design office
after the preliminary survey is to be first
located on the field by establishing the
centerline.
A detailed survey should be carried out to
collect the information necessary for the
TYPES OF preparation of plans and construction

HIGHWAY PLANNING details for the highway project.
To determine the cost of the total road
project.
SURVEYS
LOCATION SURVEY
 SOIL AND MATERIAL DRAINAGE
TRAFFIC SURVEYS SURVEYS SURVEY
Traffic surveys are started
from simple traffic counts Detailed information on Drainage surveys are
to details of traffic nature
various classifications of required mainly for the
and transportation studies.
soils is collected and purpose of design of
Various studies like speed
studies, traffic volume various field tests and cross-drainage structures
studies, delays, and laboratory test are and survey on drainage
journey time are essential being carried out for the is quite useful in fixing the
to carry out for the purpose of their gradient or grade lien of
purpose of road design suitability for the road.
and also the improvement embankments.
of the existing road
network.

ENGINEERING SURVEYS
 Type of highway planning surveys which
consist of determining the horizontal and
vertical locations of objects on the
surface of the earth. Topographic
surveys show the nature of the ground or
profile of ground which is the most
essential part for proper road alignment.

TYPES OF
HIGHWAY PLANNING
SURVEYS
TOPOGRAPHIC SURVEYS
 CONSISTENCY
Making every element of the roadway conform to the expectations of every driver.
Drivers expect the highway agency to provide them with:
Clear information and guidance through a variety of road signs.
Avoiding abrupt changes in the traffic as well as the road standards.

If these guides and directions could be planned properly to convey one single message at a time,
and if these directions will be followed smoothly and easily without undue haste, or speed changes,
then, the roadway facilities are considered satisfactory.

HIGHWAY DESIGN CRITERIA
 DESIGN SPEED
No single set of Geometric Standards will apply to all highways. For every highway
segment, decisions regarding appropriate control for each of the many details or
requirements must be addressed individually or separately.

The high-speed road design must anticipate future generations of high-speed vehicles and
advanced transportation systems that may operate on many road alignments.

HIGHWAY DESIGN CRITERIA
 DESIGN SPEED
Although the design speed of most highways is governed by construction costs, the concept of the
relatively high-speed design for freeways is Regardless of Cost. They are planned for a nationwide high-
volume traffic and high-speed network.

HIGHWAY DESIGN CRITERIA
 SPEED IMPLICATIONS
Research shows that lower speeds lead to fewer and less serious crashes. There are two
reasons for this:

At higher speeds a rider or a driver has less time to react to a situation and therefore
there is a greater likelihood that an error will result in a crash; and
The momentum and kinetic energy of a vehicle increases rapidly with speed. The
sudden dissipation of this energy in a crash means that the injury to occupants is more
severe.

Therefore, a carefully planned speed limit regime can make a significant contribution to
road safety.

HIGHWAY DESIGN CRITERIA
 SPEED IMPLICATIONS
40 kph (High-risk pedestrian areas)
appropriate for roads where there are no
footpaths and pedestrians are required to
walk on the road.

60 kph (Low-risk pedestrian areas)
On roads through built-up areas where there
are not so many pedestrians. It is appropriate
to allow motorized traffic to travel more
quickly.

HIGHWAY DESIGN CRITERIA
 SPEED IMPLICATIONS
80 kph
Appropriate on a high standard duplicated
carriage road where there is only occasional
access from adjoining properties.

100 kph
Appropriate on very high standard
expressways, which have a low crash rate.
These expressways should have a high
standard geometry and should be free of
roadside hazards.

HIGHWAY DESIGN CRITERIA
 SPEED RESTRICTION SIGNS
Good speed management practice depends on speed limit
signs being placed in visible locations and repeated frequently
enough for motorists to be certain of which speed zone they are in.

HIGHWAY DESIGN CRITERIA
 POOR ROAD STANDARDS
If the standard of the road geometry or its surface is poor, then
it may be appropriate to adopt a lower speed limit than would
normally apply until such time that the road improvements can be
made. The lower speeds compensate for the hazardous conditions
of the road.

HIGHWAY DESIGN CRITERIA
 ROAD CAPACITY
It is the maximum number of vehicles, which have a reasonable expectation
of passing over a given section of a lane or a roadway in one direction or in both
directions during one hour under prevailing road and traffic conditions.
Factors affecting the capacity of a route:
Number of Lanes Side friction such as the
Lane and shoulder width presence of road furniture
Terrain and road gradient and pedestrians
Traffic composition Intersection capacity (priority
and movements, traffic signal
phasing, number of lanes,
etc.)

HIGHWAY DESIGN CRITERIA
 ROAD TYPES
The basic functional types of roads are locals, collectors, arterials, and
freeways.

Major considerations in the classification of highway functional types:
Land use
Mobility

Local streets – emphasizes access with little consideration for mobility
Freeways – emphasizes mobility with limited access
Collectors – emphasizes access
Arterials – emphasizes mobility

HIGHWAY DESIGN CRITERIA
 DESIGN VEHICLES
The highway designer should exercise his judgment in selecting the
appropriate design vehicle for design control, based on the intended use of the
facility.
General classes of Design Vehicles:
Passenger Cars Trucks
Buses Recreational vehicles

The passenger car category includes sport utility vehicles, minivans, vans, and
pickup trucks. The bus and truck categories include buses and trucks of all sizes,
respectively.

HIGHWAY DESIGN CRITERIA
 DRIVER’S CHARACTERISTICS
The geometric design of a highway should consider users, especially drivers'
performance limits. There are limits to a driver's vision, perception, reaction,
concentration, and comfort that could impact highway safety and operating
efficiency.

When driving, most drivers receive information visually from their views of the
roadway alignment, markings and signs. They do receive other information through
vehicle feedback from the suspension system and steering control, and roadway
noise.

HIGHWAY DESIGN CRITERIA
 NUMBER OF LANES
The number of lanes in a segment of the highway is determined
from the estimated traffic volume for the design year (AADT) and
highway lane capacity at expected level of service. AASHTO policies
accept a dually divided 16 lanes roadway with four lanes in each
direction for an inner freeway and four more lanes in each direction
on the outside. There are some instances where a reversible lane is
located at the center of freeways with unbalanced heavy traffic flow

HIGHWAY DESIGN CRITERIA
 LEVEL OF SERVICE CONSIDERATION
Given a fixed volume of traffic flow and vehicle composition, the geometric
design of highways, such as the horizontal and vertical curves, grades, lane width,
number of lanes, etc., affects the travel speed of vehicles and the interaction
between vehicles. The outcome of such an effect is the observable operational
performance of the highway, qualitatively represented by the highway level of
service. The concept of LOS and methods of evaluation for different highway types
are covered in great detail in the Highway Capacity Manual (TRB 2000).

HIGHWAY DESIGN CRITERIA
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