ISLAMIC REPUBLIC OF AFGHANISTAN
MINISTRY OF PUBLIC WORKS
AFGHANISTAN RAILWAY AUTHORITY
TERMS OF REFERENCE (TOR)
FOR
Consultancy Services for Feasibility Study and Detailed Design of New Rail Link
From Lashkargah to Bahramcha (260 km approx.)
TOR FOR LASHKARGAH-BAHRAMCHA
TOR FOR LASHKARGAH-BAHRAMCHA
1. BACKGROUND AND OBJECTIVES
The railway line Lashkargah – Bahramcha which connects Afghanistan to Gwadar port (Pakistan) is vital for
the development of the significant regional and international transport corridors e.g.
Transport Corridor Europe-Caucasus-Asia (TRACEKA), Central Asia Regional Economic cooperation
(CAREC), Lapis Lazuli etc. which are in progress.
The Lashkargah - Bahramcha railway project is a part of Afghanistan Railway corridor- 2 (Herat–Farah–
Helmand–Kandahar–Zabul, Ghazni–Logar and Kabul). It is one of the most important railway links, as it
connects Afghanistan with neighboring country Pakistan and to South and Central Asia through Gwadar port.
Gwadar Port is situated on the shores of the Arabian Sea in the city of Gwadar, located in the Pakistani state of
Baluchistan. The port is located 533 km from Pakistan's largest city, Karachi, and is approximately 120 km
from the Iranian border. It is located 380 km (240 mi) away from Oman, and near key oil shipping lanes from
the Persian Gulf. The greater surrounding region is home to around two-thirds of the world's proven oil
reserves. It is also the nearest warm-water sea-port to Afghanistan.
1.1 Project Objectives
Linking Afghanistan railway to Gwadar port
Regional connectivity
Improve railway connectivity to Pakistan, South-Asia and Central-Asia
Development of Railway transport infrastructure in Afghanistan
Employment and job creation
Contribute to the regional development in terms of economic transit and commercial goods.
Social and environmental safeguard development
It is to provide a large-capacity transport channel, which would play a positive role in
enhancing the economic and social development in Afghanistan. It can promote the development of mineral resources along the line, so that the resources superiority can be changed into the economic advantages. It can promote the building of north-south transportation main artery of Afghanistan to strengthen the exchange of goods between Afghanistan and the world
1.2 The Afghanistan Railway Authority (ARA) was established in November 2012 within the Ministry of
Public Works (MoPW) following the decision of the Afghan Government’s Cabinet. Now it is an independent
government authority and is the governing body for all railway sector planning, implementation of the
National Railway Plan, development of network, operations and maintenance (O&M) of the railways in the
country. More importantly, ARA is responsible for the legal and regulatory policies governing rail investment,
development, and operations.
Afghanistan Railway Authority, on behalf of the Government of Afghanistan, aims to recruit a firm for
Feasibility Study and Detailed Design of New Rail Link from Lashkargah to Bahramcha (260 km approx.) in
accordance with the Procurement Law and Procedure of the Government of Islamic Republic of Afghanistan.
2. SCOPE OF SERVICES
The services to be provided by the Consultant shall include, but not be limited to the following.
2.1 Reconnaissance Survey
An extensive reconnaissance survey shall be conducted by the Consultant to assess the existing conditions and possible alignments passing through the obligatory points. The Consultant can also
TOR FOR LASHKARGAH-BAHRAMCHA
make use of topo sheets available with the Survey of Afghanistan for acquiring knowledge of the area.
In addition to physical survey of the area the Consultant shall acquire satellite image of the area and make use of it to ascertain the topography and other features in that area.
The reconnaissance survey, for these probable alignments will involve rough and rapid inspection of
the area in order to ascertain general outline of the topography, both visual and instrumental and
various physical characteristics between two predetermined points marked on the maps. The
objectives of reconnaissance survey shall generally be:
i). To acquire the knowledge of physical features of the area such as the rivers, streams,
channels/canals, bridges, valleys, mountains, cultivated lands, forests, villages/towns, existing roads etc. for deciding an appropriate alignment.
ii). To collect geological information including but not limited to the following points:
a). Nature of soil.
b). Surface formation of the ground.
c). Dip of the existing rocks
d). Hill slopes.
iii). To collect information regarding availability of construction materials, labour and
sources of water as permanent facilities for the proposed alignments.
iv). To have an idea about the most probable alignment keeping in view the physical site
constraints.
v). To have an idea of rivers, canals and streams, which may cross the proposed alignment for
determining suitable bridge sites for these. (Width and depth of flow and direction of flow).
vi). To locate various control points or obligatory points to decide from where the alignment
shall pass and from where the alignment shall not pass.
vii). To decide the geometrical features of the alignment i.e. maximum curvature and gradient
viii). Approximate elevation of the area along the proposed alignment.
TOR FOR LASHKARGAH-BAHRAMCHA
3.2 Route Selection
3.2.1 The C o n s u l t a n t s h a l l d e v e l o p at l e a s t three potential conceptual level alignments (for each
option stated in Clause-2) based on the reconnaissance survey of the area. Preliminary profile
shall also be prepared for each alignment for the sake of comparison. The consultants shall
carry out SWOT analysis of each alignment, developing evaluation criteria, including
construction cost, operational considerations and traffic projections.
3.2.2 Thereafter, the Consultant shall submit a route selection report to the Employer. Necessary
inputs, where needed, shall be made by the Employer. Base on this report the most suitable
alignment shall be finalized with the approval of the Employer for subsequent detailed survey.
3.2.3 Before finalizing the new alignment, various computer generated alternates with varying degrees of curvature and grades, with computation of corresponding quantities of earth work & cuttings etc shall also be produced by the Consultant to facilitate decision making by the Employer.
3.2.4 Identify the various technical options for railway construction involving track and bridges including
signaling facilities and operational facilities such as stations, yard sidings, maintenance sheds,
residential accommodation facilities along the track for operational staff etc. with the view of
identifying the least cost solution.
3.3 Topographic Strip Survey
3.3.1 After finalization of the route by the Employer, the Consultants shall carry out topographic
survey of the selected route / alignment by ground survey method by means of Total Station. The
adjusted co-ordinates and elevations of control points/traverse points shall be used for
topographic survey. The topographic strip survey shall depict all the natural and man-made
features in the width of 200meter wide corridor, 100 meter on either side of the centerline. The
survey shall be tied to control/traverse points already established. A rough sketch of the area
under survey shall be prepared. All the features shall be numbered and coded as “Strings”.
Sufficient spot heights shall be observed to accurately represent the land form and provide
height information, at regular intervals to produce an adequately detailed digital terrain model.
3.3.2 The topographic strip survey shall show the position, levels and lines of existing structures
and their features, carriage ways, road shoulders, ridges, cliffs, river beds and banks,
embankments etc.
3.3.3 For bridges angle of skew & up-stream Dn. stream bed levels shall be observed for all
crossings water courses, canals, channels etc. at sufficient spots. Water courses, canals/channel
levels will be taken as strings upto 100 meters from the centerline.
3.3.4 The important rivers shall be surveyed for 2.5 Km upstream and 1.5 Km downstream
including spill channels etc. Cross-sections of river bed shall be taken at suitable points and
their position marked on the plan. The level of highest known flood and ordinary low flood
shall be noted on each cross-section. In case it is considered desirable to divert the course of river
or stream, the best method of doing so shall be examined in consultation with the Employer and
necessary topographic survey and cross-sections made.
3.3.5 The Consultants shall plot the right of way, longitudinal profile, cross-
TOR FOR LASHKARGAH-BAHRAMCHA
sections and other details necessary to make the best possible route for the new rail link.
3.3.6 In case of road crossings, the proposed alignment, angle of skew, width of road metaling,
shoulders and top levels of the road surface shall be observed on both sides at
adequate spots for plotting X-section proposal for under pass/over head bridge be
submitted.
3.3.8 Horizontal Control
3.3.8.1 Horizontal Control shall be provided by traversing using total station and shall
preferably be based on national grid established by Survey of Afghanistan.
3.3.8.2 Azimuths shall be checked by Polaris/Solar observations at 10 to 15 Km interval.
3.3.8.3 The minimum acceptable accuracy of the traverse line shall be 1/10,
000 or better.
3.3.9 Vertical Control
3.3.9.1 Vertical control shall be provided by double leveling based national datum
established by Survey of Afghanistan.
3.3.9.2 All the traverse points/ground markers established during horizontal control shall be connected to the leveling net.
3.3.9.3 Vertical disclosure within the leveling net shall not exceed + 10 K
mm where K is the length of leveling line in Kilometer.
3.4 GPS Survey
Surface coordinates of selected monuments shall be established by Global Positioning system
(GPS) at 10 Km intervals and shall be checked with SOP control points in the vicinity
of the area of work, intermediate traverse shall be made with total station.
3.5 Docu
3.5.1
mentation
The C o n s u l t a n t s h a l l establish Permanent Control Points as reference system for
future use along the route at a distance of one Km with x,y,z coordinates and azimuth. The monuments shall be made of pre-cast reinforced concrete measuring 15 cm x 15 cm x 75 cm with 1 cm dia steel rod in the center. One large monument 30 cm x 30 cm x 90 cm of concrete, cast in situ will be installed at interval not less than 10 Kms.
3.5.2 Permanent monuments are required to remain stable for a minimum period of 15 years.
The location will be agreed with the Employer before placement. They will, however,
be so positioned that they can be conveniently referred to during progress of
construction. Their construction
TOR FOR LASHKARGAH-BAHRAMCHA
should be such that these cannot be readily removed or damaged by accident or mischief
and so placed as to be easily identified. Special care shall be taken for protection of
monuments in the stretches affected by shifting sand dunes. For this purpose, the diameter
of the steel rod shall be kept as 2 cm.
3.5.3 Control Points will be established on center line of the new alignment at 500 m internal with special reference to transitioned and circular curves (beginning and end points). The monuments shall be made of pre-cast reinforced concrete measuring 10 cm x 10 cm x 45 cm with 1 cm dia steel rod in the center.
3.5.4 The monuments shall be buried in the ground and only 10 cm height would be visible. The
visible part should be painted in white and respective number written on it. Special care
shall be taken to ensure that the monuments are fixed at or close to permanent structures.
3.5.5 Description of all the monuments along with photographs will be prepared by the Consultant.
3.6 Longitudinal Profile and Cross Sections
3.6.1 The Consultants shall prepare longitudinal profile and cross sections of final approved route also compute the quantities of cut and fill.
3.6.2 Final track levels shall be fixed keeping in view the natural ground level, opening and free board of waterways, type of bridges/culverts and minimum cushion over these and the governing HFLs in the area.
3.6.3 Cross Sections shall be observed at 50- m e t e r center to center in the plains detailing the
levels across the entire corridor on either side of the center line. This will be reduced
to 25 meter in undulating, rough/rolling areas. The cross section will be plotted in 1/200
horizontal and 1/20 vertical scale or as amended by the Employer. The cross sections
interval will be reduced to 10.0 meter in hilly areas.
3.6.4 Longitudinal profile at the center of the proposed alignment shall be plotted on 1/1000 horizontal and 1/100 vertical scale.
3.6.5 The Consultant shall mark, but not limited to, the following on topographic sheets /
drawings showing detailed data of each:
i) Level Crossings
• Location (kms) and Level Crossing Number.
• Sketch of Level Crossing.
• Type of Level crossing.
• Width of Gates / Gate Posts.
• Width and type of Road.
ii) Bridges
• Location (kms) and Bridge Number.
• Sketch of Bridge.
• Type of Bridge.
• Total Span with width of each span.
• Digital Photograph
iii) Curves
• Location (kms from – to--).
TOR FOR LASHKARGAH-BAHRAMCHA
• Length of Curve.
• Degree / Radius of Curve.
• Circular or Transition.
• Length of transition
• Super Elevation
3.7 Traffic and Commercial Survey
3.7.1 Transport Profiles
In the context of freight and passenger movement the consultant will study the operations of
major competitors of Railway i.e. trucks, buses, coaches etc. giving focus to large truck and
bus terminals /operations with a view to have a competitive edge.
3.7.2 Traffic Growth
Traffic growth models shall be established at the macro and micro levels for overall
application and variation on individual routes/sections. Overall growth rates will be
established on the basis of growth rates of various transport demand indicators based on
historical data to be indicated in the methodology & approach and in more detail in the Inception
Report.
The growth rates established by the National Transport Plan and other studies (so far such
information is available) will be taken into account. Overall growth rates may have to be
modified for individual routes depending upon socio-economic conditions on the
route/influence areas and other local conditions.
TOR FOR LASHKARGAH-BAHRAMCHA
3.7.3 Growth Estimates
Overall traffic growth tendencies shall be determined & reviewed comparing planned development
growth and actual achievement in recent years, establishing a framework of growth relevant to the
project, addressing major evaluation factors and then estimating local traffic growth on each project
route/section by extending current socio-economic trends in the future influence areas, and
interrelating them with traffic on the project routes.
3.7.4Traffic Forecast
After establishing current transportation demand traffic forecast shall be done for the next 20 years using an appropriate model to be developed by the consultants and outlined in the methodology & approach in the Technical proposal and in more detail in the Inception Report. On the basis of this traffic forecast, traffic revenues will also be worked out based on rationalized tariff structure.
3.7.5Market Analysis
The over-whelming objective of the market research/analysis shall be helpful in analyzing current
transport demand of goods and passengers in the project area and to establish realistic projections.
The Consultant will refer to the existing studies and reports, if available on the subject, and carry
out his own analysis to arrive at a tangible quantification of the following parameters:
• To identify the traveling pattern of passenger and goods transportation
• To ascertain the preferences of passengers and goods transporters
• To determine the needs of passengers and goods transporters
• To identify the social/cultural constrains if any for using one or other mode of transportation.
• To identify the comparative strengths and weaknesses of rail and road traffic.
• To get the perspective of rail and road operators.
• To identify the purpose of travel
For this purpose, the Consultant shall review the secondary data available on the subject, interact with the major target groups, and statistically analyze the data so obtained for making important inferences.
3.7.7 Social Impact Analysis
The Consultant shall also undertake social impact analysis of each alternate corridor in
case the project is implemented. The analysis will identify cost of specific social measures
deemed necessary to solve the identified issues and to provide additional social benefits, if
possible. The SIA study will provide necessary input for developing a Land Acquisition and
Resettlement Plan (LARP). The cost of LARP must be included in the cost estimate for the
economic and financial analysis. A detailed TOR for the SIA and preparation of LARP is given
in Appendix 2
3.8 Geotechnical and Geological Investigations
3.8.1 The Consultants shall carryout but not limited to the following field testing:
TOR FOR LASHKARGAH-BAHRAMCHA
i. Surface Geological Mapping (80-meter corridor)
ii. Test Pits (1.5x1.5x1.5 meter), maximum 2 kms apart.
iii. Sub-surface Dr i l l i n g (Boreholes) for identification of sub soil strata, Standard
Penetration Test (SPT), Rock Quality Designation (RQD), maximum 5 kms apart
particularly at the locations of bridges and tunnels.
iv. Investigation Audits for tunnels, one for each proposed tunnel.
v. Field Permeability Test, maximum 10 kms apart.
In addition to above proposed tests, Consultants shall carryout the additional test as deemed
appropriate to complete the assignment and preparation of report.
3.8.2 The Consultants shall carryout but not limited to the following lab testing:
i. UCS (Unconfined Compressive Strength)
ii. Point Load Test
iii. Tensile Strength Test (Brazilian Test)
iv. Density Test
v. Grain Size analysis
vi. Specific Gravity
vii. Triaxial Test
In addition to above proposed tests Consultants shall carryout the additional test as deemed appropriate to complete the assignment and preparation of report.
3.8.3 In addition to the field and lab testing Consultants shall also provide following
information:
i. Identification of potential borrow pit areas.
ii. Identification of l o c a l l y available sources in the vicinity of proposed alignment for
coarse and fine aggregates for concrete works and use as ballast.
iii. Identification of sources of water.
iv. General geology and topography of the area and their possible effects on the proposed embankment and foundations.
3.8.4 The Consultant shall collect and interpret following data from Geological and other
concerned departments of Afghanistan with reference to the proposed alignments.
a). Geological maps. b). Location of geological fault lines. c). Earthquake records.
3.8.5 The Geotechnical Investigation report should comprise, but not limited to the following:
• Bearing Capacity Curves for Shallow foundation
• Pile Capacity Curves for deep foundation
• Values of Horizontal and Vertical Modulus of sub grade reaction KH and
KV should be presented in report.
• Type of foundations required for bridges.
• Requirement of protection works against landslides.
• Results of all tests / investigations and Recommendations
3.9 Hydrological Study
TOR FOR LASHKARGAH-BAHRAMCHA
3.9.1 The Consultants shall carryout hydrological investigations with the analysis of rainfall and flood
records supplemented by detailed field investigation for providing cross-drainage structures, where
required, after proper hydrological and drainage evaluation.
3.9.2 Information will be collected from each site and desktop studies, comprising the
evaluation of the following parameter.
• Evidence of flooding.
• Water logged areas, slushy/marshy lands.
• Saline area.
• Waterway area of existing structures.
• Nature of the stream bed.
3.9.3 Meteorological Data
Hydro meteorological data for the relevant rainfall stations will be collected fromgovernment
m e t e o r o l o g i c a l o f f i c e s a n d o t h e r a g e n c i e s , f o r rainfall intensity, duration and frequency
analysis.
3.9.4 Flood Records.
i). Available flood flow data of major streams at or near their crossing points will be collected
from concerned department and other concerned agencies. Dependable high water marks
for major rivers crossing project routes will be collected by site inspection and by local
enquiry from the residents.
ii). Major structures on the roads adjacent to proposed railway alignments may have withstood
unusual floods after their construction, Information on any such occurrences and the
depth of flooding will be collected from the concerned departments and residents of the
area.
3.9.5 Canals
The following data on irrigation canals adjacent to or crossing the project routes will be obtained from the Provincial Irrigation Department or WAPDA as the case may be:
• Maximum design discharge
• Velocity of flow in the canal bed
• Bed level and full supply level including freeboard
• Bed width, top width, bed and side slopes
• Closure period of canal
• Any future planning of new canals, scrap drains etc.
3.9.6 Catchments
i). Topographic maps, if available, on 1: 250,000 and 1: 50,000 scale for the relevant railway
crossing locations will be collected from Survey of Af gh an i st an offices to planimeter
the catchment areas, evaluate their hydrological characteristics and analyze drainage
regimes.
ii). Major structures on the roads adjacent to proposed railway alignments may have withstood
unusual floods after their construction information on any such occurrences and the depth
of flooding will be collected from the concerned departments and residents of the areas.
3.9.7 Site Plans
Site plans for major streams/rivers crossing sites shall be obtained from the topographic survey. The plans will show important features and the cross section of such streams and rivers.
TOR FOR LASHKARGAH-BAHRAMCHA
3.9.8 Evaluation
Hydrological analysis shall be conducted to determine the discharge of streams crossing the rail-
road and to calculate waterway structure and hydraulic capacity. In this respect, the Consultants
will undertake the following activities.
• Compile daily rainfall data for the relevant stations
• Prepare Intensity-Duration-Frequency curves
• Calculate catchment areas, stream lengths and slopes from SOP maps
• Calculate stream discharge and associated waterway openings for streams crossing the
railway line.
3.9.9 The following major parameters shall be kept in view for streams crossing the railway
line.
• Maximum flood discharge for a 100 year return period for bridges.
• Maximum flood distance for a 25 years return period for culverts
• Velocity of flow at peak discharge.
3.9.10 The hydrological investigations shall comprehensively examine the phenomenon of
flash floods in hilly areas where even sporadic rains result in enormous discharge inundating embankments and structures. The railway line shall be so laid as to completely avoid or mitigate the effects of hill torrents in order to make it an all weather line.
3.9.11 Hydrologic Analysis
For hydrologic analysis and design applicable computer software such as HEC-1, HEC-2,
HECWRC, WSPRO, HEC-RAS, HEC-HMS or other in-house programs may be used by the
Consultants in consultation with the Employer.
3.9.12 Protection work and precautions to be taken against scour of rivers and streams and particulars
of diversions proposed. The probable depth and character of foundations of bridges and culverts and
any particulars to be taken into account as affecting the design of the construction of the same.
3.9.13 For rivers requiring a waterway of 100 meters or more information shall, as far as possible, be
obtained regarding all circumstances likely to affect the design of the bridge, the water way to be
provided, the depth and character of the foundation and other details. The level of the highest
flood determined from careful inquiries, any special floods with particulars and dates, any
peculiarities of the drainage area as regards form and declivity and geological or botanical
conditions likely to affect the velocity of the flood discharge. Physical characteristics of the bridge
site or the river bed in its vicinity as affecting the design of the bridges or the amount of
waterway required. Evidence of scour or liability of the river to alter its course.
3.10 Environmental Impact Assessment
Conducting Initial Environmental Examination (IEE) and Environmental Impact Assessment (EIA)
due to the implementation of the railway link and their mitigation measures and also submission of an
Environment Management Plan (EMP) as per Government’s policies. The provision for implementing
the recommendations of EIA has to be incorporated in the bid document. A detailed TOR for the EIA
and preparation of EMP is given in Appendix 3.
3.11 Economic & Financial Analysis
Conduct the economic and financial analysis. In addition to the standard With and Without Project
framework, the economic analysis should apply an Multi- Criteria Analysis (MCA). At a minimum,
the economic analysis should address the following: (a) demand forecasts for the proposed railway
considering the quantity and type of goods to be transported and possibility of passenger service; (b)
direct benefits owing to rail operations in lieu of other modes of transport; (c) Indirect benefits such as
induced economic development. The financial analysis should focus on the long term viability of
operations. A detailed TOR for the economic and financial analysis is given in Appendix 1.
3.12 Signaling & Telecommunications
TOR FOR LASHKARGAH-BAHRAMCHA
This shall focus on the following points: -
i). Defining signaling and telecommunication system based on traffic forecasts and resulting
density of traffic for each section/network
ii). Rules & regulations, local requirements, flexibility for operation etc. iii).
Technical design standards of the proposed systems.
iv). Study of various modern signaling and telecommunication systems and description of
salient design features, broad outline of specifications of the equipment and power supply
system etc. of the recommended system.
v). Yard lay outs.
vi). Signaling and telecommunication plans for the selected routes.
vii). Cost estimates of the equipment, recurring expenditure, availability of spares, cost of
training etc.
viii). Establishment of maintenance workshops and centers, maintenance structure and
organization etc.
3.13 Locomotive and Rolling Stock
The Consultants shall make a preliminary assessment of workshop, maintenance facilities and define the type of rolling stock to be maintained. The scope of work will include: -
i). Study of types of locomotives and recommendation of suitable type of locomotive.
i i ) Define the type of rolling stock to be maintained
ii). Design standards and criteria for the new rolling stock
iii). Requirement of rolling stock (locomotives, coaches, freight wagons, special stock, if any)
based on traffic forecasts, location of Loco Sheds, Sick Lines, Washing Lines etc.
3.14 Electric Power Study
i). Electricity requirement for official and residential buildings.
ii). Identification of source of supply and purchase of electricity.
iii). Distribution network for supply to stations, yards, residential/office building,
colonies, pumping stations and signaling equipment etc.
iv). Location/capacity of pumping stations including ground water exploration. v). Electric
Power Generation, if required.
3.15 Electric Traction Study
This study shall be performed only provided the recommendation under Para 3.13 will be for
using electric locomotives. If performed the study shall include but not limited the following:
TOR FOR LASHKARGAH-BAHRAMCHA
ii) Propose the type, design and characteristics of overhead Electric Traction equipments. ii).
Requirement and availability of electricity.
iii). Requirement of sub-stations and locations thereof.
iv). Remote control facilities for the operation and control of electric traction equipments
particularly in the sub-stations.
v). Communication and control facilities required for maintenance of electric traction
equipment.
3.16 Preparation of Detailed Tender Design
3.16.1 The Consultant will Prepare the tender design updating the detailed design and the respective findings. The tender design will be sufficiently detailed to form the basis of the Construction design later on.
3.16.2 The tender design and drawings will be detailed enough to facilitate the Contractors to prepare their technical bids apropos to the factual requirements of the project.
3.16.3 The Consultant will prepare a detailed cost estimate based upon the tender design providing a true basis to the Contractors to formulate their financial proposals covering all the aspects of the project.
3.16.4 The detailed designs shall also include design for railway stations, railway sidings, freight yard
and marshaling yards, platform sheds, residential accommodation facilities along the track for
operational staff etc., for the proposed alignment as per the Government’s specifications and
standards.
3.16.5 The detailed design shall specifically consider design of bridges optimized based on the
preliminary designs with the Consultant’s conclusions on the selection of the type of bridges
proposed along the alignment.
3.17 Preparation of Cost Estimates
The Consultant shall prepare cost estimates for both construction and operation & maintenance including the cost of land acquisition (if required).
The Consultant shall provide the approximate rate of land per acre within the project corridor and in the
vicinity shall be ascertained and noted. The boundaries of districts and sub-divisions shall be noted and
marked on the plans for ease of reference.
Based on the results of the engineering investigations, the Consultants will prepare
D e t a i l e d design, estimate the quantities of work and costs for each project section. The costs
will be given separately for foreign exchange and local currency. Consultants will also provide BOQ
for land, track, structure, signal, telecom, electrical, tunnels, earthwork, sub- ballast etc.
3.17.1 Capital Investment
The initial capital requirements/costs of the proposed new work shall be segmented by major groups as associated with this type of work. These work groups include land acquisitions, with details of land to be acquired, separately for Urban & Rural area, cost of construction, maintenance facilities, locomotives, freight wagons, passenger coaches, signaling, Telecommunication, electrical and other miscellaneous capital equipment.
3.17.2 Construction Cost
The construction cost shall be segregated into major groups such as civil/structural works, track
structure, railway signal & Telecommunications, railway facilities, other miscellaneous works and
contingencies.
TOR FOR LASHKARGAH-BAHRAMCHA
3.17.3 Railway Operating Costs
The Railway operating costs are extremely peculiar in nature and comprise fixed and variable costs,
divided broadly into maintenance of permanent way and other infrastructure, maintenance
ofequipment, general charges, train service expenses & marketing expenses, and shall be carefully worked out.
3.17.4 Unit Rate Analysis
With the raw data on the local cost of labour, materials, and equipment collected, basic rates for all anticipated items of work such as track, bridges, platforms etc. including structural work shall be developed.
3.18 Technical Requirements
The Consultant will prepare the draft bidding documents following the guidelines of National
Procurement Authority (NPA) and the International Financing Agencies. The tender documents will
include but not limited the following:
i Technical Specifications for Civil, Electro-mechanical, telecommunication Works
ii. Bill of Quantities and Price Schedules
iii. Design Drawings
iv Instructions to Bidders and Bid Forms
iv. General and Special Conditions of Contract
vi. Supplementary Information including all supporting data like Topographic, Survey Report, Environmental
and Social Impact Assessment Reports, Geological and Geotechnical Studies Reports etc.
4. REQUIRED EXPERTISE AND PREFERRED QUALIFICATIONS
Approximately 77 person-months of key international and 75 person-months of key national consultants will
be required to accomplish the required tasks over a 12-month period. The envisaged required specialists,
amount of input and preferred qualifications are as follows.
International Key Experts
Qualifications PERSON- MONTHS
Team Leader / Senior Railway Engineer
Engineer with University degree, preferably a Masters Degree, in civil or railway engineering, with 15 years of
relevant experience. Fluent in English and have strong
management and communications skills. Previous experience in
Central Asia is preferred.
10
Railway Track Design Engineer
Graduate degree in civil engineering or Railway Engineering with expertise in track design, and 10 years of relevant experience.
Previous experience with Central Asian gauge is an added
advantage.
8
Railway Signal and Telecommunication Engineer
Graduate degree in electrical engineering or electronics engineering, with expertise in signal and telecommunications of the railway network, and 10 years of relevant experience.
4
International Key Experts
Qualifications PERSON- MONTHS
Railway Operational Specialist
Graduate degree in civil engineering or electrical or mechanical engineering and expertise in O&M of railway projects, including private sector participation, with 15 years of relevant experience. Previous experience in Central Asia is preferred.
4
Railway Bridge and Structure Engineer
Graduate degree in civil or structural engineering, with expertise in railway structural engineering and 10 years of relevant experience.
4
Hydrologist Graduate degree in civil or hydrological engineering, with expertise in hydrological engineering and 10 years of relevant experience.
4
Geo-technical Engineer Graduate degree in civil or geo-technical engineering, with expertise in geo-technical study and design engineering and 10 years of relevant experience.
3
Transport Economist/Financial Analyst
Graduate degree, preferably Postgraduate degree, in finance / economics or business administration with 10 years’ experience in economic and financial analysis including IRR/EIRR etc. of transport sector related projects.
6
Environmental Specialist
Graduate degree in Environmental or Civil engineering/science with 10 years’ experience in transport sector related projects.
4
Sociologist / Resettlement Specialist
Master’s degree in Sociology with 10 years’ experience in transport sector related resettlement project preparation and implementation. Working knowledge of Dari/Pashto will be an added advantage.
5
Architect Graduate Degree in Architecture with 10 years’ experience. 2
Survey Engineer Graduate degree in Survey/Civil Engineering with 10 years experience.
5
Security Coordinator An international consultant with extensive background and experience in the security field, with (a) 10 years government,
military, and/or police service, or equivalent private sector security-
related experience; (b) area knowledge and experience in
Afghanistan; (c) demonstrated experience in crisis management and
operating in difficult circumstances and conditions; (d) strong
written and verbal briefing skills; and (e) demonstrated experience
in operating in a multicultural environment.
8
Total Person-Months 77
National Non- Key Experts
Railway Track Design Engineer/Deputy TL
Graduate in civil engineering with 5 years of relevant experience or diploma in civil engineering with 7 years of relevant experience.
12
Railway Signal and Telecommunication Engineer
Graduate in electrical or electronics engineering with 5 years of relevant experience or diploma in electrical or electronics engineering with 7 years of relevant experience
4
Civil/Structural Engineer
Graduate or diploma in civil engineering, or preferably structural or bridge engineering, with 5 years of relevant experience for graduate and 7 years for Diploma
6
Geotechnical Engineer Graduate in civil engineering with 5 years of relevant experience or diploma in civil engineering with 7 years of relevant experience.
3
Environmental Specialist
Graduate degree in Environmental or Civil engineering/science with 5 years’ experience in transport sector related projects.
4
TOR FOR LASHKARGAH-BAHRAMCHA
TOR FOR LASHKARGAH-BAHRAMCHA
National Non-Key Experts
Qualifications PERSON- MONTHS
Sociologist / Resettlement Specialist
Graduate in social science with 5 years of relevant Experience or diploma in social science with 7 years of relevant experience. Experience with Social Impact Assessment or LARP is an added advantage.
5
Civil Engineer (2 nos) Graduate in civil engineering with 3 years of relevant experience or diploma in civil engineering with 5 years of relevant experience.
12
Alignment Surveyor / Quantity Surveyor
Graduate in survey or civil engineering with 5 years of relevant experience. or diploma in survey or civil engineering with 7 years of relevant experience.
5
Traffic Surveyor Diploma in engineering with 3 years of relevant experience. 4
Railway O&M Inspectors
A diploma in civil or mechanical engineering with 5 years of relevant experience. Experience in operation and maintenance of rail systems, rolling stock, and related facilities is preferred.
8
Security Officer A national consultant with extensive background and experience in the security field, including (i) 5 years government, military, and/or police service or equivalent private sector security-related experience; (ii) excellent local knowledge of the working area; (iii) experience in preparing and implementing security plans in conflict, post-conflict, and high-risk environments; and proven information gathering and sound analytical skills; (iv) language skills appropriate to the area as well as fluency in spoken and written English; and (v) demonstrated experience in operating in a multicultural environment.
12
Total Person-Months 75
The task responsibilities for each team member include but are not limited to the following:
Team Leader / Senior Railway Engineer (International)
Coordination with the EA and management of the consulting team to undertake the
following: (i) Review of all available materials and reports.
(ii) Provide a broad overview of potentially feasible possible rail link construction options from Laskargah to Baharamcha.
(iii) Carry out detailed reconnaissance survey and assess the various alternative routes of the
rail link duly considering the topography, land formation, commercial aspects, existing
infrastructure in the project area, and future development plans of the Government in
the region and suggest the most suitable route among proposed routes with comparative
scenario of the various alternative routes.
(iv) Provide a broad overview of possible rail transport of goods and passengers on the lines
under study; define traffic forecasts of possible regional traffic, transit traffic as well as for
domestic and international cargo to be carried by rail in future; define the optimum volume
and type of traffic (passenger and freight) that would be carried by different modes of
proposed links if the rail links are made, taking into account the current and future
development of trade, the development of future rail links, the role of inland goods
transport facilities in the region of the proposed rail link and to Kabul, and other
destinations inside Afghanistan and future changes in the transport network and share of rail
transport.
TOR FOR LASHKARGAH-BAHRAMCHA
(v) Direct all necessary survey and engineering studies required to fulfill the terms of reference.
(vi) .Direct all necessary institutional, social, environmental, financial and economic studies
as
required to fulfill the terms of reference
(vii) Direct the development and implementation of the project safety
plan. (viii) Prepare implementation schedule and detailed work plan.
Railway Track Design Engineers (International and National)
Under the direction of the Team Leader and in association with other team members:
(i) Identify the various technical options for railway construction involving track and bridges including
signaling facilities and operational facilities such as stations, yard sidings, maintenance sheds etc. with
the view of identifying the least cost solution.
(ii) Prepare d e t a i l ed designs (and typical-sections, horizontal and vertical alignments, etc.) for the
railway track works, structural works, railway stations, railway sidings, freight yard and marshaling
yards, platform sheds etc., for the proposed alignment as per the Government’s specifications and
standards.
(iii) In concert with the least cost technical solution, assess the technical soundness, economic feasibility,
and financial viability of the various alternative routes and determine the optimal routes for
construction of the railways.
Railway Signal and Telecommunication Engineer (international and National)
Under the direction of the Team Leader and in association with other team members:
(i) Site survey and radio propagation analysis for telecommunication system.
(ii) Telecommunications system detailed design drawings, including passenger announcement system.
(iii) Design and drawing of Signalling system.
(iv) Advise on the use of fiber optic cable and/or copper cable.
(iv) Recommend appropriate signaling and telecommunication equipments.
Railway Operational Specialist (International)
Under the direction of the Team Leader and in cooperation with the Institutional Development Specialist assist
in developing an efficient railway institution with authority for planning, management, operations and
maintenance (O&M) of the railway sector that incorporates the best practices which have been successfully
implemented in similar post-conflict and regional situations.
Railway Bridge and Structure Engineer (International)/ Civil/Structural Engineer (National)
Provide engineering support to the technical and engineering studies as directed by the Team Leader.
Hydrologist (International)
Conduct a hydrologic review study including rainfall and flood level data to establish hydrological and
hydraulic parameters for fixation of the formation level of the railway embankment and track, opening of the
bridges and culverts, and also design of scour and erosion protection in the vicinity of major bridges and river
banks according to the prevailing site conditions.
Geo-technical Engineer (International and National)
Carry out geotechnical investigations and soil tests to identify characteristics of soil and determine bearing
capacity of soil required for design of bridges, culverts, embankments, buildings and other structure
TOR FOR LASHKARGAH-BAHRAMCHA
Transport Economist (International)/ Financial Analyst (International)
Conduct the economic and financial analysis. In addition to the standard With and Without Project framework,
the economic analysis should apply an Multi- Criteria Analysis (MCA). At a minimum, the economic analysis
should address the following: (a) demand forecasts for the proposed railway considering the quantity and type
of goods to be transported and possibility of passenger service; (b) direct benefits owing to rail operations in
lieu of other modes of transport; (c) Indirect benefits such as induced economic development. The financial
analysis should focus on the long-term viability of operations.
Environmental Specialist (International and National)
Conduct an Initial Environmental Examination (IEE) and Environmental Impact Assessment (EIA) due to the
implementation of the railway link and their mitigation measures and also submission of an Environment
Management Plan (EMP) as per the Government’s policies. The provision for implementing the
recommendations of EIA has to be incorporated in the bid document.
Sociologist / Resettlement Specialist (International and National)
Conduct Social Impact Assessment (SIA) including socio-economic and land market survey, video filming of
the existing households and infrastructure to establish a resettlement relocation cost. The SIA study will
provide necessary input for developing a Land Acquisition and Resettlement Plan (LARP). The cost of LARP
must be included in the cost estimate for the economic and financial analysiArchitect (International)
Provide architectural expert inputs to the technical and engineering studies as directed by the Team Leader
Civil Engineers (2 No) (National)
Provide engineering support to the technical and engineering studies as directed by the Team Leader
Survey Engineer (International)/ Alignment Surveyor - Quantity Surveyor (National)/ Traffic Surveyor
(National)
Carry out detailed topographic surveys of the viable route to the needed accuracy using Satellite Base Survey
equipment (DGPS, Data Logger & Total Station) that can be used for detailed engineering design and
construction. All the specifications of these surveys are to be followed as per the latest standards of Geodesy
and Cartography of the Government of the Islamic Republic of Afghanistan.
Railway O&M Inspectors (National)
Assist the Institutional Development Specialist to develop and implement the Railway O&M Training Plan.
Security Coordinator (International) and Security Officer (National)
Under the direction of the Team Leader:
(i) Assist the Government and the EA to prepare the Project Security Plan.
(ii) On going consultation and coordination of the implementation of the Project Security Plan with the Ministry of Interior and the EA
(iii) Supervision of implementation of the Project Security Plan including reporting.
5. PREPARATION OF REPORTS
5.1 Inception Report (within 30 days of mobilization)
The Consultant on mobilization shall carryout field visits hold meeting with Railway and other
concerned officials; commence field activities within the ambit of the TORs and the results of the
interactions and recce, as mentioned above. The Consultant shall prepare the Inception Report by
incorporating the action plan, methodology etc., which, after review by ARA, shall be become a
guide line for the remainder of the project providing necessary instructions to the Consultant.
5.2 Reconnaissance Survey Report (within 3 months)
TOR FOR LASHKARGAH-BAHRAMCHA
After completing reconnaissance survey, the Consultant shall prepare Reconnaissance Survey
Report indicating the existing conditions, possible alignments, discussion on topo sheets, discussion
and comments of satellite image of the area and other details as stated in the TOR.
5.3 Topographic Survey Report (within 4 months)
After completing the topographic survey, the Consultant shall prepare Topographic Survey Report.
The report shall include all the data obtained from field, topo sheets etc and comments / conclusion
by the experts.
TOR FOR LASHKARGAH-BAHRAMCHA
5.4 Route Selection Report (within 6 months)
After completion of reconnaissance and topographic survey and acquiring knowledge of the area
the Consultants shall prepare Route Selection Report in accordance with the requirement of TOR
showing three potential conceptual level alignments for each proposed links indicating strengths and
weaknesses of each proposed alignment.
5.5 Traffic and Commercial Survey Report (within 6 months)
This shall include all the data, reviews and analysis to establish traffic projections as per details given in TOR.
5.6 Geological, Geotechnical and Seismological Studies Report (within 7 months)
The Consultants shall prepare a comprehensive report for Geological, Geotechnical and
Seismological Studies. The report should be prepared as per requirements and tests described in the
TORs and based on the best engineering practices. The report should be comprehensive and must
contain conclusion regarding type and design
of foundations and protection works for various structures.
5.7Hydrology Study Report (within 7 months)
The Consultants shall prepare a comprehensive report for Hydrology Study based on the
hydrological investigations and analysis. The report must clearly depict the proposals for cross
drainage structures and other precautionary measures to be taken against excessive rainfall and
flood.
5.8 Environmental and Social Impact Reports (within 9 months)
The Consultants shall prepare a comprehensive report relating to environmental issues and
particularly the impact of resettlement as per requirement detailed in the TORs.
5.9 Financial & Economic Analysis Report (within 10 months)
Economic analysis plays a very important role in deciding the initiation and execution of the
project. It is expected that Consultants shall utilize its best experts for preparation of Financial &
Economic Analysis Report. It should include financial model for the project considering various
financing options of the proposed investment, the expected returns etc identifying any implications.
5.10 Signaling & Telecommunication Report (within 10 months)
The Consultants shall prepare Signaling and telecommunication report as per requirement of TORs particularly indicating the type of signaling & telecommunication system to commensurate the requirement of line capacity.
5.11 Rolling Stock Report (within 10 months)
The Consultants shall prepare a report on Rolling Stock (Locomotives & Carriages) as per requirement of TORs keeping in view the best international practices for similar nature of terrain.
5.12 Electric Traction Study Report (within 10 months)
Preparation of this report shall be subject to the outcome of Para 3.13 and 3.15. Keeping in view the scarcity
of electrical power in the country, the Consultants shall pay special attention in preparation of report
regarding Electrical Traction. The report shall also include a comparison of ET Locomotives with Diesel
Locomotive, indicating the comparison of capital investment, long term benefits and savings etc.
TOR FOR LASHKARGAH-BAHRAMCHA
5.13 Electric Power Study Report (within 10 months)
Availability and provision of Electricity for execution and operation of new rail links is of prime importance.
The Consultants shall prepare a comprehensive report regarding availability of electricity for whole of the
project area, requirement of Power generation (if required) and other details as per TORs.
5.14 Draft Feasibility Study and Detailed Design Report (within 10 months)
After carrying various studies as described in the TORs, the Consultant shall prepare and submit
Draft Feasibility Report and shall include all technical studies made and conclusions drawn, therefrom.
5.15 Final Feasibility Study and Detailed Design Report (within 12 months)
After having discussion on the Draft Feasibility Report and receiving comments from the Employer,
the Consultant shall prepare Final Feasibility Report.
6.
6.1
GUIDELINES FOR PREPARATION OF MAPS / PLANS
Units of measurements
Metric system shall be used for preparation of plans / drawings.
6.2 Scale and size of drawings
TOR FOR LASHKARGAH-BAHRAMCHA
Scales and sizes of drawings shall be as follows or as agreed with the Client:
i). Index plan and profile (showing various alignments in different colours studied during reconnaissance survey).
• Scale 1:250,000
• Size 90 cm x 120 cm ii). Index Plan and profile (Showing final alignment)
• Scale 1:50,000
• Size 90 cm x 120 cm
iii). Detailed plan and profile (for the final alignment)
• Scale
o Horizontal 1:1000
o Vertical 1:1000
• Size 90 cm x 120 cm iv).
Plan, cross-section of rivers.
• Scale 1:3000
• Size 33 cm x 120 cm
v). Yard Plans
• Scale 1:1000
vi).
•
Cross Sections
Size 33 cm x required size
• Scale
o Horizontal 1:200
o Vertical 1:20
vii). Land Plans
• Scale
o Horizontal 1:1000
o Vertical 1:100
• Size 50 cm x required size viii).
Contour maps
ix). Alignment transferred in high resolution satellite image
6.3
Details to be shown
All the natural and man made features falling in the Right of Way (ROW) of the alignment including all the features detailed in the topographic survey.
6.4
The Consultant shall prepare plan and longitudinal profile on agreed format
for
permanent record of Afghanistan Railway Authority showing natural ground level, proposed formation level, proposed rail level, gradient and cut/fill etc.
TOR FOR LASHKARGAH-BAHRAMCHA
7. DELIVERABLES
7.1 The Consultants shall provide the following:
S.No Description / Deliverables Remarks
1 Inception Report
Ten (10) copies of
each report with
editable Soft Copy
on CD/DVD
2 Reconnaissance Survey Report
3 Topographic Survey Report
4 Route Selection Report including Plan, Profile and
Cross Sections at of selected
5 Traffic and Commercial Survey Report
6 Geological, G e o t e c h n i c a l a n d
S e i s m o l o g i c a l Studies Report
7 Hydrology Study Report
8 Environmental and Social Impact Assessment Report
9 Financial & Economic Analysis Report
10 Signaling & Telecommunication Report
11 Rolling Stock Report
12 Electric Traction Study Report (pl. refer to Para 5.12)
13 Electric Power Study Report
14 Draft Feasibility Study and Detailed Design Report
15 Final Feasibility Study and Detailed Design Report
8. TIME FOR COMPLETION of ASSIGNMENT
12 months
9. GUIDELINES FOR TRACK & OTHER RELATED PARAMETERS
9.1 Degree of curvature should be compatible with the proposed speed of 100 Km/h and unnecessary curves shall be avoided.
9.2 All circular curves shall be provided with parabolic transition curves at the ends.
9.3 Curves shall be avoided in and near station yards, close to large bridges, in deep cuttings and at places where the view obstructed.
9.4 The gradients should be adequate to cater for the speed of 100 Km/h & speed restrictions should be avoided.
9.5 Changes of grade shall be avoided within 100 meters of points & crossings and in the vicinity of bridge abutments.
TOR FOR LASHKARGAH-BAHRAMCHA
9.6 Steep up grades in the direction of stations just outside the outer signal and within 1000 meters of it shall be avoided.
9.7 In undulating area, grades shall be so regulated that cutting and filling shall be optimum balanced.
9.8 Track will be of standard gauge (1435 mm) and its structure would comprise 54/60 Kg rail
for speed of 100 km/h, however, the Consultants shall be at liberty to recommend better options.
9.9 Suitable axle load to be suggested by the consultant.
9.10 The consultants have to propose Points for high, medium & low speeds.
9.11 Important cross drainage lines requiring major bridges shall, as far as practicable, be crossed on the square. Large bridges shall never be put on the skew.
9.12 Station sites should be within approximately 2 km distance from the existing town or village
and should be at a level stretch of land. These will be selected in consultation with
the Employer keeping in view the obligatory points to be connected and the sectional
capacity of the section. The sites for stations shall be completely surveyed in such detail
as to be suitable for plotting to a scale of
1:1000 along with cross-sections at regular intervals. The detailed survey should take in
everything within the proposed boundary of the station yard. The dimensions of the plot
for the station yard shall be sufficient to allow ample space, not only for the initial
requirement but also for extended accommodation likely to be needed to meet increased
traffic in the future.
9.13 The roads shall cross the Railway line as far as possible at right angles.
9.14 The alignment will be such that it gives shortest route between two points.
9.15 Straights shall be, as long as possible, close to the obligatory points.
9.16 Any reliable information about high flood levels shall be frequently observed and noted
being useful when deciding on the formation level.
9.17 The Consultant will also provide track parameters and tolerance for the Maintenance of proposed track.
10. MODE OF PAYMENT
10.1 An advance payment of 10% (ten percent ) of the contract amount shall be made against an
advance payment bank guarantee acceptable to the Client in an amount (or amounts) and in a currency (or
currencies) specified in the SCC. The advance payments will be set off by the Client in equal portions
against the lump-sum installments specified in the SCC until said advance payments have been fully set
off. Payment of installments shall be linked to the deliverables specified in TOR on their submission and approval by the Client as per the following schedule:
S.
No.
Upon Submission of Deliverbles Payment (Percent of
Contract Amount)
1 Inception Report 10 (ten) %
2 Reconnaissance and Topographic Survey
Report, Route Selection Report and Traffic and
Commercial Survey Report
15 (fifteen) %
3 Geological, Geotechnical, Seismological
Studies Report and Hydrologic Study Report
15 (fifteen) %
4 Environmental and Social Impact Assessment
Report
10 (ten) %
5 Signaling & Telecommunication Report; 15 (/fifteen)%
TOR FOR LASHKARGAH-BAHRAMCHA
Rolling Stock Report and Electric Traction and
Electric Power Study Report
6 Financial and Economic Analysis Report 10 (ten) %
7 Draft Feasibility Study and Detailed Design
Report
15 (fifteen)%
8 Final Feasibility Study and Detailed Design
Report
10 (ten) %
11. IMPLEMENTATION ARRANGEMENTS, FACILITIES TO BE PROVIDED BY THE CLIENT, AND WORK SCHEDULE
11.1 Afghanistan Railway Authority (ARA) is the Executing Agency (EA) for the project, and MPW
will serve as the Client for the consulting services.
11.2. ARA will provide the Consultant with all available data, study reports related to the project that
it has.
11.3 ARA will provide counterpart staff and a Project Manager who will coordinate with the
Consultant on a daily basis and report to CEO, ARA.
11.4. The Consultant shall include in their cost estimate the cost of office and residential
accommodation including to counterpart staffs while on project site, vehicles and communications, office
furniture, equipment and consumables, for the entire professional and support staff and any other items
required to carry out the scope of services. The consultants are expected to provide their own
equipment and services for computers, telephone, facsimile machine, and Internet communications for
the duration of their services.
12. CONTACT PERSON
The Consultant shall maintain close liaison with Eng. Mirwais Ghafori, Head of Engineering and Survey
Department, Afghanistan Railway Authority for the sole purpose of the services. The contact person shall
be the primary contact point of the Client.
E-mail: [email protected]