Finance Code Vol-1, Ch-2 PDF

Summary

This document details financial appraisal of railway projects, including general principles, scrutiny by accounts officers, test of remunerativeness, and provision of rolling stock. It also outlines revenue estimation and assessment of working expenses, including depreciation calculations and economic evaluation techniques. Examples illustrate the application of Discounted Cash Flow (DCF) methods.

Full Transcript

CHAPTER-II
Financial Appraisal Of Railway Projects

201- 202 General Principles
203 Scrutiny by Accounts officer
204-205- 206-207 Test-of Remunerativeness
208 - 209 Provision of Rolling Stock
210 Scheme for change of traction
211-212- 213-214 Revenue estimate
215-217 Assessment of working expenses
218 Provision for depreciation
219 Normal Lives of assets
220,220A Technique of financial appraisal of projects, DPR for
Technical and financial appraisal of projects
221-222 Accounting rate of return method
223-224 Pay back period method.
225 Discounted cash flow
226-227 Net present value (NPV) or Net Present Worth (NPW)
228 Annual Cash Flows
229-230- 231-232 Rate of return under D.C.F.
233 Residual Value
234 Alternative Schemes
235, 235A Economic Evaluation
236 - 237 Replacements and Renewals
238 Reconditioning
239 - 240 Scrapping, condemning and abandoning assets
241 - 242 Second hand value
243 Post-projects appraisal
244 - 247 New Lines
248 - 252 Open Line Works

Annexures
Annexure A Check list with detailed notes for guidance of zonal Railways
and concerned branches in Railway Board's office, in the
preparation of Project Estimates.
Annexure B Sinking fund Payment Table
Annexure C Interest formulas and tables for Discounted Cash flow techniques
Annexure D Rate of return-using Discounted Cash Flow method.
Annexure E Examples illustrating application of DCF techniques in the
financial appraisal of
 railway projects.

Annexure F Economic evaluation of Railway investments
Annexure G Examples illustrating the method of financial justification to
be adopted in the replacement, reconditioning or
abandonment of existing assets
Annexure-H Examples, illustrating the determination of second hand value of
assets.
Annexure- I Economic Appraisal Framework for evaluation of railway project
Annexure-J Proforma for submission of Detailed Project Report

*****
 CHAPTER II

Financial Appraisal Of Railway Projects

201. General Principle -Indian Railways is part of infrastructure Ministry and hence
substantial investments are to be made for augmentation of capacity and expansion of
network which require large investment. Investment decisions are the most important
decisions to be made. It is fundamental to railway system as a commercial undertaking
that expenditure other than that wholly chargeable to Ordinary Revenue incurred on
new assets or for improvement of existing assets should be financially justified and no
expenditure should be incurred without sanction. Moreover these decisions are to be
made by keeping long term perspective in mind and treating IR as a national asset.

202. As an exception to Para 201, while no financial justification as such need be
given in the following cases, it should be seen that the scale of expenditure incurred is
as economical as possible consistent with the extant orders, if any, on the subject:-

a) when the expenditure is incurred on a statutory obligation;
b) when the expenditure is unavoidable on considerations of safety;
c) when the expenditure is incurred on passenger amenity* works; and
d) when the expenditure is incurred on labour welfare works except residential
buildings for which special rules are applicable.
*(Authority Board’s letter no. 2023/F(X) II/10/1 dated 01/02/2023 ACS No1)
Note -
1) When expenditure on any of the above items forms part of a scheme and is
not essential independently of the scheme, the total cost of the scheme,
inclusive of the cost of the above works, should be financially justified.

2) In the case of savings in engine days or wagon days or both by avoidance of
or reduction in detentions to stock, etc., the financial justification should be
worked out on the basis of increased locomotive or wagon, etc., utilization and
consequent postponement of the purchase of new engines or wagons, etc., if
such saving can be definitely secured, and not on the basis of the earning
capacity of the stock saved.

3) Savings on a particular railway should not be taken into account if they mean
a loss on another railway. In such cases, the interest of railways as a whole
should be considered.
 4) No credit should be given to a proposed scheme for a saving which can be
achieved regardless of whether the proposed scheme is or is not embarked
upon.

5) If flag stations are included in the new scheme, the cost of operating them
should be taken into account as an item of expense in working out the
financial justification of the scheme.

6) Where a number of works required in connection with and/or increasing the
line or transhipment capacity have to be carried out on different stations of a
section as part of a scheme, the financial justification should be worked out
for the section as a whole, as it might be difficult to allocate anticipated
savings to individual stations.

7) Expenditure on works required for meeting statutory obligations or on
consideration of safety should be subjected to proper scrutiny to see if the
proposal is the result of a fresh development not already covered by the
existing rules, or for implementation of a new recommendation of the
Standing Safety Committee (accepted by the competent authority) or any
Commission of Enquiry set up by Government, as the case may be.

203. Scrutiny by Finance & Accounts Officer -The Finance & Accounts Officer in
his position as the Financial Adviser to the Administration, should carefully scrutinize the
justification for proposed expenditure with reference to the principles enunciated in this
Chapter and other orders on the subject. Even in cases where the return on the
investment is not the determining factor, it will be incumbent on him to examine and
offer his advice on the general merits of the proposal in the spirit of a prudent individual
spending his own money.

204. Test of remunerativeness: The net financial gain expected to accrue from a
project be either by way of savings in expenditure or increase in net earnings (i.e. gross
earnings less working expenses),or a combination of both. Except in case residential
buildings, assisted sidings and rolling stock to which special rules are applicable, no
proposal for fresh investment will be considered as financially justified unless it can be
shown that the net gain expected to be realized as a result of the proposed outgo
would after meeting the working expenses or average annual cost of service(see
para217) yield a return of not less than 10 percent under DCF method on the initial
estimated cost.
(Authority:F(X)-II/2011/ROR/1 dated 05.10.2017)

Note-
1) Interest during construction should be added to the cost (excluding that
chargeable to Revenue) of the projects, the construction of which is likely to last
for more than one year.

2) Depreciation should be calculated on the total cost of the scheme and not only on
the portion chargeable to Capital, unless the contrary procedure can be justified
in any particular case. However, depreciation as an element of working expense is
to be ignored for assessing annual cash flows under the DCF Method (see para
228).

3) In the case of construction of bridges, maintenance charges should include,
besides the Maintenance charges on the bridges proper.

4) The element of interest charges, vide item (d) of para-215, should be ignored in
determining the average annual cost of service in the case of a new project,
though it should otherwise be included for the purpose of working out the
comparative cost of two or more alternative schemes.

205. Following is an illustrative list of the various types of investment proposals which
must pass the prescribed test of financial remunerativeness:

a) New Lines: -
1) Project oriented or ‘single purpose’.
2) General purpose.
b) Line Capacity Works-
1) Gauge conversions.
2) Doublings.
3) Major Signalling Schemes i.e. Tokenless Block Working, Automatic Block
Signalling, CTC, Route Relay Interlocking, KAVACH etc.
4) Lengthening of loops and/or provision of additional loops.
5) Crossing stations.
6) Strengthening of electric traction distribution system and/or major
modifications to electric traction installations.
c) Yard Remodelling and Terminal Facilities-
 1) Marshalling yards.
2) Goods and passenger terminals.
3) Transhipment points.
d) Telecommunication Works.
e) Electrification and provision of Loco Sheds herefore
f) Introduction of new services- Passenger trains, container services, etc.
g) Workshops-
1) Production Units.
2) Repair Units.

206. It may sometimes be necessary to reject a more economical alternative, because
of considerations on which it is difficult to put a precise money value. If on the
strength of any such factor a proposal is adopted that is less economical than its
alternatives, the reasons determining such a choice should be recorded in the report of
the estimate containing such proposals. In those cases in which the reasons as
recorded are not accepted by the Finance & Accounts Officer, the latter should offer his
remarks in his certificate of verification of the estimate concerned, so that these
remarks may be taken into consideration by the authority sanctioning the proposal.

207. In regard to works proposals which are intended to increase line capacity,
detailed traffic surveys should be conducted by a team consisting of officers of requisite
status and experience from the Commercial/Operating Department and the Finance &
Accounts Department. Where the traffic survey is conducted along with an engineering
survey (Reconnaisance, Preliminary Engineering or Final location), the traffic survey
report should be prepared under the general guidance of the Leader of the Team who
will be an officer of appropriate status from the Civil Engineering Department.

208. Provision of Rolling Stock –Investment proposals for purchase/manufacture of
additional rolling stock are to be justified on the basis of a general increase in the level
of traffic which may or may not require line capacity works being taken up at the same
time for the anticipated level of traffic. Where a line capacity work is justified due to
anticipated increase in traffic, and also in the case of proposals for new line
construction, the initial cost estimate should, for the purpose of Project appraisal,
invariably include the cost of the rolling stock and the financial return on the project
should be measured with reference to the overall initial cost of the project including the
cost of rolling stock.
209. A very substantial part of the capital employed on the Railways is represented by
the investment in rolling stock. The assessment of rolling stock required for moving
additional traffic is directly related to the targets for movement of freight traffic,
commodity-wise as projected by the Planning Directorate of the Railway Board. For
additional passenger coaches, the Planning Directorate makes a forecast of the rate of
growth of passenger traffic over a specified plan period. This detailed exercise should
take into account the existing and projected operating parameters and efficiency indices
such as wagon turn-round, provision for ‘sickness’, requirements for busy season, etc.
In all cases where a distinctly new type of rolling stock is proposed to be acquired or
manufactured, a detailed financial appraisal should be made of the proposed investment
to see that it yields the requisite financial return.

210. Scheme for change of traction –Projects connected with the electrification
are best formulated on a long term basis after considering the relative claims of the
various high density sections of the Railways for better traction. A thorough techno-
economic appraisal should be made in respect of each of the various sections proposed
to be taken up for change of traction. Wherever possible, priorities for taking up the
scheme for change of traction should be determined on the basis of the relative financial
return expected from the various alternative schemes.

211. Revenue estimate –The revenues expected from additional traffic whether on
the existing line or on a new line should be very carefully estimated in the traffic survey
report. The estimate of revenues should be worked out for each commodity and for the
lead from its origin up to the point of termination of the traffic. It should be ensured,
however, that in case line capacity works are required to be undertaken in the
contiguous section or Railway system over which the additional traffic is expected to be
moved, the initial cost estimate for the scheme takes into account the cost of such
additional line capacity works over the entire lead of the traffic.

212. In the case of a ‘project-oriented’ new line, i. e., when a new railway line is
proposed to be built to serve the needs of a specific project or industrial complex,
the estimated revenue from the traffic which will move on the line should be
assessed realistically in consultation with the authorities concerned with that specific
project. It is, however, essential that the Traffic Survey Team also makes its own
independent assessment of the likely traffic which the project is expected to generate,
instead of placing complete reliance on the data furnished by the Project Authorities or,
in the case of a public sector undertaking, the concerned Department of the
Government. The traffic survey officers must deeply probe into the various stages of
scheduling of the project; e. g. what commitments have been entered into by the
Project Authorities and whether the progress in the execution of the project is
adequate to justify any specific claim in respect of the anticipated traffic. While working
out the additional revenue from the traffic expected to move on the new line over its
entire lead, the Railway Administration should make a careful assessment of the line
capacity works required or terminal or any other facilities to be developed on the
contiguous section/Railway system to carry this traffic. As stated in Para- 211, if
additional works are considered necessary, the scope and cost thereof should be
defined and included in the main project estimate. In case it is considered that
adequate line capacity exists in the contiguous section or Railway system so that the
additional traffic on the new line can be carried throughout its lead on the Railway
without any hindrance the Railway Administration should confirm that no additional
works would be required to be undertaken anywhere on the system to carry this traffic.

213. This approach inevitably involves grouping of a number of works with a common
(or complementary) objective, such as for movement of additional traffic by improving
line capacity, or for avoidance of detention to trains through yards. ‘Group
Justification’ in such cases should be worked out for the project as a whole in case the
individual works cannot stand on their own and must necessarily be taken up as part of
a single project. However, where each of the works is self-contained, selection of
priorities after consideration of various alternatives should necessarily be done with a
view to ‘sub-optimization’, i.e. to realise the optimum benefit for the project by
substituting the less remunerative sub-works by those anticipated to improve the return
further.

214. Before proposals are made out for new marshalling yards or major remodeling of
existing marshalling yards or mechanisation of marshalling yards, goods terminals and
transhipment yards, etc., a work study team should go into the actual working and
suggest such improvements in operation as can be achieved even with the existing
facilities. Additional facilities should be justified only after all the possibilities of
improvement in working by optimum utilisation of the existing assets have been fully
explored and evaluated. For line capacity works generally Master Charts should be
prepared of the existing (optimum) capacity, the extent to which it is presently utilised,
and the capacity expected to be available after the provision of the proposed facilities.
The additional traffic beyond the optimum existing capacity of the section should only
be reckoned for financial appraisal.

215. A. Assessment of Working expenses/Average Annual Cost of Service –
The average annual cost of service of an asset is the sum of:
 a) The average annual cost of operation;
b) The average annual cost of maintenance and repairs of the assets;
c) The annual depreciation charges (but see para 228);and
d) Annual interest charges on the cost of the asset.

Note.–In computing working expenses in financial evaluation of any capital expenditure
proposal under D.C. F. technique, only items (a) and (b) above should be reckoned.

215 B. Average cost per unit of service -The average cost per unit of service is
obtained by dividing the average annual cost of service by the total number of units of
service rendered by the asset in a year. In comparing two assets on this basis, care
must be taken to see that the number of units of service taken into account in both
cases represent the actual number utilised or consumed. Units of service rendered by
either of the assets in excess of the actual requirements should be ignored in
computing the cost per unit of the asset.

216. For the purpose of assessment of the average annual cost of operation and
maintenance, full use should be made of the traffic costing data relevant to the
investment proposal under consideration. Correct application of the cost data and, in
particular, assessment of the direct/variable and the indirect/fixed or semi-variable
costs is very important in arriving at a realistic estimate of the working expenses in
respect of the proposed scheme.

217. In applying the unit cost data for working out the cost of moving the additional
anticipated traffic, it has to be considered whether it would be reasonable to adopt the
‘incremental cost’ approach or to take ‘fully distributed costs’ into account. Logically, it
would be realistic to work on the basis of ‘incremental costs’ for any small increases in
traffic and over the short run. In the long run, however, even the so-called fixed costs
will vary, and the incremental or marginal costs may fail to cover such semi-variable
expenses. On the other hand, it would be equally unreasonable to apply fully
distributed costs in all cases while working out the financial implications of a line
capacity work. A realistic (though somewhat conservative) approach would, therefore,
be to adopt ‘long term variable costs’ (based on percentages given at the end of
Annexure ‘A’ for each item of cost) which will ensure not only that projects are not
thrown out because of the adoption of the ‘fully distributed costs’ but also that a
project is considered as remunerative so long as it yields the requisite return after
meeting the ‘long term variable costs’.
218. Provision for depreciation- Depreciation provision in respect of an asset will
be equal to the annual payment to a Sinking Fund which, together with the interest
thereon at such rates as may be prescribed by the Railway Board, when compounded
annually, will provide the amount required for the replacement of the asset at the end
of the normal life. The duration of the Sinking Fund payment will be determined by the
‘normal life’ of the asset, and the amount of the annual Sinking Fund payment will be
ascertained by referring to the table reproduced as Annexure ‘B’ to this Chapter, which
shows the annual amount payable at different rates of interest ranging from 2% to 8%
(over periods extending up to 100 years).

219. Normal lives of assets– For the purpose of the annual Sinking Fund payment
referred to in para 218, the normal life of the various classes of railway assets should
be taken as in the table below (However, instructions issued from time to time from
Board’s Office regarding Codal Life may also be referred to):-

(i) CIVIL ENGINEERING ASSETS:

S.No. Class of Assets Average life in years
ROUTES
A & B C(Sub) D E*
1. RAIL & FASTENTING etc.

1 Rail & Fastenings
(a.1).Rails (60kg) 25 19 38 38
(a.2) Rails (52 kg) 20 15 30 30
(b). Wooden Sleepers 10 10 10 10
(c.1) Metal sleepers (Cast Iron 20 20 20 20
& Steel)
(c.2) Fittings steel trough 10 10 10 10
(d). PSC Sleepers 35 35 40 40
(e). Elastic Fastenings
(i) Elastic Rail clips 8 8 10 10
(ii). Rubber Pads (GRSP) 4 4 4 4
(iii) Rubber Pad (CGRSP) 8 8 8 8
(iv) Metal Liners 8 8 8 8
(v) GFN Liners 4 4 4 4
(f) Switches
(f.1) Switches (52 kg) 4-6 4-5 8-10 8-10
(f.2) Switches (60 kg) 5-8 4-6 10-12 10-12
(f.3) Thick Web Switches 14-18 13-16 20-24 20-24
(g). Crossings 7-8 6-7 10-11 10-11
2 (A). MAJOR BRIDGES
(a). Bridges work- Steel work 60
(b). Bridge Masonry 100
(c). Structures Steel 60
(d). Structure- masonry and 65
cement concrete
(e). RCC Bridge Works 60
(f). Pre-stressed concrete- 40
Bridge work
(B). MINOR BRIDGES
(a). Bridges work-Steel work 60
(b). Bridge Masonry 100
(c). Structures Steel 60
(d). Structure- masonry and 65
cement concrete
(e). RCC Bridge Works 60
(f). Pre-stressed concrete- 40
Bridge work
3. FOOT OVER BRIDGES

(a). Bridges work-Steel work 60
(b). Bridge Masonry 100
(c). Structures Steel 60
(d). Structure- masonry and 65
cement concrete,
(e). RCC Bridge Works 60
(f). Pre-stressed concrete- 40
Bridge work
4 TRACK MACHINE (All 15
Categories)
*Service life as indicated in the table is general life/service life for track
components. However, renewal/replacement will be subject to various
criteria laid down in IRPWM about its condition.
(ii) COMPUTERS AND OTHER IT SYSTEMS:

S.No. Class of assets Average life in
years
1(a) Servers and storage devices 8
(enterprise class)
1(b) Network active devices (Routers, 6
switches etc.)
1 (c) Network passive devices (Patch 10
panels, outlets, network cables)
1(d) UPSs (>/= 50 KVA), cooling 8
equipment (PACs, Chillers) Fire
suppression systems for Data centers
2 (a) UPSS< 1KVA 4
2(b) UPS>1KVA, 0.3 should be considered as Polluted Zone.
i) Cantilever Cantilever 45
assembly & assembly
Insulators:
All types of Composite 25
insulators
ii) ATD 24
iii) Contact Wire (a) Silver 40 years/on the basis of
Brazed/ERB condemning dia. whichever
W is earlier
(b)Continuou 45 years/ on the basis of
s Cast(CC) condemning dia. whichever
type is earlier
(xiv) PSI Equipments
(a) Substation's equipments
(i) Power Transformer / 40
Auxiliary Transformers
(ii) All types of cables 30
(iii) Fixed capacitor bank 20
(b) Control equipments
(i) Circuit Breaker, panels, all 25
switchgear and protective
circuits
(ii) SCADA system 10
(xv) Transmission line equipments & components
(i) 110KV/132 KV, ACSR 60
conductors / Earth wire /
insulators / Tower fittings
12 Tower Wagons (both 4 40
wheeler, 8 wheeler & all
types)
C). Equipments required for replacement through Revenue
S.No. Class of assets Average life in years
1 Electric Loco Equipment
(i) Armature for Traction Motor 15
(ii) Stator for Traction Motor 18
(iii) Commutator for Traction 15
Motor
(iv) Auxiliary Motor 18
(v) Arno Converter 18
(vi) Blower Impeller/Casing 10
(vii) Locomotive re-cabling 18
(viii) Power Cables 18
(ix) Control Cables 18
(x) Compressor with exhausters `10/15
complete recondition
/replacement
2 AC Equipment
(i) Compressor ACCEL/ CARRIER Deleted
(ii) Sealed Compressor KCL make Deleted
(iii) Sealed Compressor Deleted
Maneurope make
(iv) Compressor Motor (DC) Deleted
(v) Compressor Motor (AC) Deleted
(vi) Condenser Fan Motor (DC) Deleted
(vii) Condenser Fan Motor (AC) Deleted
(viii) Condenser Fan Motor (RMPU) 12
(ix) Evaporater Fan Motor (AC) Deleted
(x) Evaporater Fan Motor (DC) Deleted
(xi) Evaporater Fan Motor (RMPU) 12
(xii) Compressor (Scroll) 12
(xiii) Condenser fan 12
(xiv) Condenser Unit Deleted
(xv) Condenser Unit (RMPU) 12
(xvi) Evaporater unit Deleted
(xvii) Evaporater unit (RMPU) 12
(xviii) Mercury in glass thermostat Deleted
(xix) Evaporator Blower Drum 12
(xx) Microprocessor Controller 12
3 TL/Power Equipment
(i) 4.5/25 KW alternator regulator 12
(ii) Emergency 90 AH VRL (SMF) 4
 Battery
(iii) 120 AH VRLA (SMF) Battery 4.5
(iv) 290 AH starting L.MLA 4
Batteries for Power Car
(v) 70 AH VRLA Batteries 4.5
(vi) Power Car power panel 15
(vii) Power panel (AC coaches) 15
(viii) Pre Cooling cum battery 12
charging transformer rectifier
unit
(ix) 50 KVA /60 KVA (750/415 V ) 15
transformer unit
(x) 3 KVA 415/190 V transformer Deleted
(xi) 15 KVA, 9KVA, 5KVA, 3KVA 15
coach transformer and control
metering transformers
(1KVA,500VA, 250VA, 200VA,
100VA)
(xii) Water Raising Apparatus 5
(WRA)
(xiii) Water Boiler for Pantry 5
(xiv) Hot Case for Pantry 5
(xv) Bottle Cooler cum deep 5
freezer
(xvi) Ventilation Blower Motor for 12
Power Car
(xvii) Radiator for Power car 15
(xviii) Radiator Motor for Power Car 15
(xix) Pump controller 12
(xx) I.V. Coupler 400A/500A 18
(IV) MECHANICAL ASSETS
S.No. Class of assets Average life in years
Machinery & Plant
1 Machine Tools like Lathes, 20
Planners, Drilling, Boring and
Milling machines etc.
2 High Precision and special 20
purpose machines like wheels
 Lathes etc.
3 Tool Room and Testing 15
Laboratory equipment
4 Foundry and Forge Equipment 20
5 Heat Treatment Equipment 20
6 EOT Cranes 36
7 Power Generation Machinery Deleted
& Switches
8 General purpose light 15
machinery e.g. band saw,
floor grinder etc.
9 Air Compressors 20
10 Other miscellaneous machines Deleted
eg. Light cleaning machines,
test equipment in loco sheds ,
workshops, depot & sick lines
11 (i) Construction Machinery Deleted
equipment
(ii). Track Maintenance equipment

(a)Tamping, Ballast cleaning 20
and handling, DTS and
relaying machines
(b) Material handling 25
machines
(c ) Rail Grinding Machines 15
12 Station machinery like 15
weighing machines etc.
13 Miscellaneous machinery and 10
equipment for hospital, offices
etc.
14 Mechanical Weigh Bridges Deleted

15 Electronic in motion Weigh 12
Bridges
16 Wheel impact Load 12
detector(WILD)
17 Diesel Pumps 15
18 Welding equipment 10
19 Diesel Refrigeration Deleted
equipment
20 Material handling equipment 10
like FLT, Lister trucks etc.
21 Traversers 25
22 Fuel Station Dispensation 10
Equipment
23 (i) Bulldozers and 20
(ii) Other earth moving Deleted
equipment
24 Motor Boats 15
25 Hydraulic re-railing 16
equipments
ROAD VEHICLES

26 Staff Cars including Jeeps 7
27 Light Motor Vehicles 10 years for Diesel and 15
28 Heavy Motor Vehicles years for Petrol as per norms
29 Tractors
(IV) MECHANICAL ASSET

ROLLING STOCK
30 Diesel Electric/ Hydraulic 36
Locomotives
30 Diesel Engine 18
31 Shunting Locomotives 36
32 Steam Locomotives 40
33 Boiler and Tender 20
34 Steam Cranes 30
35 Diesel Hydraulic Cranes 25
36 Steel Body Coaches including 25
DMUs / EMUs, Restaurant
Cars etc.
37 Full Stainless Steel Body 30
Coaches including
DMUs/EMUs, Restaurant Cars
etc.
38 Light utilisation categories of 40
coaches (steel body) like
inspection carriages etc.
39 IRS Coaches 30
40 Open Bogie wagons with air brakes and Casnub bogies
(a) BOXN, BOY, BOBRN, BOBSN 35 years (subject to outcome
of structural and financial
justification to be conducted
for extension beyond 30
years)
(b) BOBYN 38

(C) Other open 30
wagons

41 Bogie tank wagons with air brakes and Casnub bogies

(a) BTPN 45 years (subject to outcome
of structural audit to be
conducted for extension
beyond 40 years)
(b) Other tank wagons 40

42 All other types of Bogie wagons with air brakes and Casnub
bogies
(a) BCN 40 years(subject to outcome
of structural audit and
financial justification to be
conducted for extension
beyond 35 years)

(b) All other wagons 35
43 Open Wagons with vacuum Deleted
brakes and UIC bogies
44 Other Wagons with vacuum Deleted
brakes and UIC bogies

45 4- wheeler wagons (open and Deleted
covered)
46 4 – wheeler tank wagons Deleted
(with plain bearings)

47 4- wheeler tank wagons (with Deleted
roller bearings)
Equipment/Sub assemblies of Diesel locos

48 Engine Block 18

49 Crank Shaft 18
50 Turbo Super Charger 12
51 Governor 18
52 ECC assembly with RA Gear 18
Box
53 Radiator Fan 16
54 Heat Exchangers including 10
radiator
55 Expressor/Compressor 16
56 Bogies with wheels 18
57 Traction Motor 18
58 Traction Generator/Alternator 18
59 All electrical rotating machines 18
above 5 HP on Diesel locos
60 Rectifiers 18
61 Traction Gear 18
62 Loco Batteries 4
63 Power Cables 18
64 Control Cables 18
65 Blowers 10
66 Armature for Traction Motor 18
67 Stator for Traction Motor 20
68 Control Equipments 18
Equipment/Sub assemblies of DMUs
69 Power Pack 16
70 Bogies with wheels 18
71 Traction Motor 18
72 Traction Generator/Alternator 18
73 All electrical rotating machines 18
above 5 HP on DMUs/Rail
bus/Railcar
74 Rectifiers 18
75 Heat Exchangers 10
76 Batteries 4
77 Power Cables 18
78 Control Cables 18
79 Control Equipments 18
80 Hydraulic Transmission 16
Rehabilitation/Replacement

(V) SIGNAL & TELECOMMUNICATION ASSETS
(A) SIGNALLING SYSTEM
S.No. Class of Routes Average life in years
assets
1 Electrical/ Route-' A'
Mechanical Route-‘C’/Sub
Signalling Urban section
System Big Yard
(more than or 25
equal to 200
routes) on all
Routes
2 Electronic For all routes 20 years or based on
interlocking obsolescence
3 (i) Electronic Signalling system like 20 years or based on
Axle Counter, ATP, AFTC, IPS obsolescence
etc
3(ii) Kavach (Automatic Train 15
Protection- ATP)
(A) SIGNALLING EQUIPMENT

Class of assets Life in Average life in years
terms of Routes
S.No operatio C/ E
ns D& &
A B Suburba D- E-
n Spl Sp
l
Cranks and 50,000
1 2 2 1 4 4
Compensators
2 Lock Bar Clips 1,00,000 3 3 3 5 7
Facing Point Lock 3,00,000
3 8 8 8 15 15
with bolt detection
4 Mechanical Detectors 5,00,000 - 15 — 20 25
Circuit breakers 5,00,000 15 15 15 25 30
5
Lever locks - 7 7 7 12 15
6 EK Transmitter - 10 10 10 15 15
7 SM’s Slide Frame - 30 30 30 30 30
Electric Point Detector -
8 15 15 15 20 20
& Reversors
9 Signal Machines 1,50,000 - 10 - 20 20
Signal Wire -
10 3 3 3 3 3
Transmission
11 Point Machine 3,00,000 12 12 7 15 15
Plug-in relay (metal to 15,00,000
12(i) 25 28 25 28 30
metal)
Plug in relays (metal 10,00,000
12(ii) 25 28 25 28 30
to carbon)
Track Relay, QL1 and
12(iii) 10 10 10 10 10
QBCA1 relay
Track Feed battery -
13 10 10 10 10 10
chargers
14(i) Transformers 30 30 30 30 30
Battery chargers, DG
14(ii) 10 10 10 10 10
Sets, inverters, ELD
15 (i) Batteries (VRLA) 4 4 4 4 4
15(ii) Batteries (LMLA) 5 5 5 5 5
16 Block Instruments 25 25 25 25 25
Cable 25 to
17 25 25 30 30
28
Block Instrument
Electro
18 20 20 20 20 20
Mechanical/Electronic
s
19 Electric Lifting Barrier 10 10 10 10 10
LED Signals (all
aspect types) of
20 6 6 6 6 6
specification prior to
version 2011
LED Signals (all
aspect types) of
21 8 8 8 8 8
specification version
2011 or later

(B) Telecommunication Equipments
S.No. Class of Assets Average life in years
1 Microwave Equipments 12-15 years
2 MTRC Equipments/LTE 15 years
3 (i) Exchange and accessories 12-15 years
including telephone equipment
(ii)Telephone instruments IP/Non IP, 8 years
Push button telephone, Magneto
phones & FCT
4 Server based IP Exchanges 12 years
5 Underground cables
(a) Quad PIJF 25 years
(b) OFC 25 years
6 Overhead alignment 25 years
7 All other electronic/wireless items (i) 10 years for items with
including OFC equipment RDSO approved specification
(ii) 5 years for COTS items
8 OFC measuring equipment 8 years
9 Cell phones 3 years
10 Video Phone & WLL phone 8 years
11 Portable VSAT, Satellite phone 6 years
12 Walkie-Talkie sets/VHF (i) 6 years – WT
(ii) 8 years – 25 W VHF
(iii) 1year-Battery of WT for
Drivers/Guards
(iv) 2 years- Battery of
WT for others
13 Datacom Equipments, Router,
Modem, Switch (including
Core/Aggregation/L‐2 switch), Media
converter, Active system (viz. MIS
systems including external storage
systems and their connects) & Passive 8 years
systems (viz. Networking equipments
and cabling), Remote Diagnostics and
Predictive maintenance system (NMS),
Servers, Network video recorder
&Video Conferencing System.
14 LED display Boards for passenger (i) 8 years for items with
information system, true colour video RDSO approved specification
cum train information display system (ii) 5 years for COTS items.
and Public Address System (including
IP based)
15 GPS based Digital Clocks (i) 8 years for items with
RDSO approved specification
(ii) 5 years for COTS items.
16 VOIP based Train Control 10 years
Communication systems
17 Voice Logger for Control, auto (i) 8 years for items with
phones, BSNL phones & LC gate RDSO approved specification
telephone (ii) 6 years for COTS items.
18 Control Communication & Gate
comm..Equipment 8
19 Telecom Battery Charges /SMPS
Based power Supply 15
Equipment/Inverters
20 CCTV Camera (Fixed dome, PTZ and
other type) and associated 8
 equipment, video camera
21 Large format display monitor/ Video
wall & LED/ LCD TV 8
22 Fax Earlier appearing as item 7
in RBA 25/2006. Shall not be
replaced after its normal life.
Note 1.: PCs and Secondary System may be deleted from list of Telecom
assets and their life will be as indicated under (ii) Computer and Other IT
systems
Note 2. Para 219 ibid includes all correction slips circulated vide RBA circulars
issued upto 12.8.2022
Note 3: The average life of the assets is detailed above however the actual
replacement of all assets shall be based on the condition of the asset.

220. Technique of financial appraisal of projects- The following methods of
appraisal of capital expenditure proposals are commonly used in industrial and
commercial undertakings:
a) Accounting rate of return,
b) Pay back period, and
c) Discounted Cash Flow.

Of these, methods, (a) & (b) are employed without considering the time value of
money. These are also known as the 'Financial statement' methods since the
calculation involves data taken from and used essentially in the same form as in
financial statements. When time is considered, the method employed for financial
appraisal is the Discounted Cash Flow method, also called the 'Present value method',
since the time value of money is an explicit consideration.

220 A. DPR for Technical and financial appraisal of projects- Detailed Project
Report (DPR) for projects are to be prepared as per Board’s guidelines. Proforma for
submission of Detailed Project Report is given in Annexure – ‘J’.

221. Accounting rate of return method - Under this method, the rate of return is
worked out by arriving at a percentage ratio of the net gain (i. e., revenue less working
expenses) over the initial anticipated investment of the project. Simply illustrated, it is
proposed to construct a masonry building at a cost of Rs.1 lakh to accommodate an
office which is now housed in a building at a rental of Rs.15,000 per annum. It will be
necessary to ascertain (a) the average annual cost of maintenance and repairs of the
proposed building and (b) its scrap value at the end of its normal life. If these are taken
to be (say) Rs. 5,000 and Rs. 10,000 respectively, then the average annual cost of the
proposed new building will be (a) Rs.5,000 plus (b) Rs. 801 being the annual sinking
fund payments (at 3 per cent for 50 years which is equal to 0.0089 multiplied by Rs.1
lakh minus Rs.10,000), or Rs.5,801 in all. This will result in a saving of Rs. 9,199
(Rs.15,000 minus Rs. 5,801) in the annual rental charges that are presently being paid,
or a net return of 9.2 percent on the investment of Rs.1 lakh.

222. A minor variant of the above illustration would be to take the average investment
over the life of the asset at half the initial cost, viz., Rs.50,000 on the assumption that
depreciation is written off in equal instalments over the life of the asset and the amount
invested on the asset will decrease each year as funds are released through the effect
of the depreciation charge. In that case the return on the average investment will work
out to 18.4%.

223. Pay back period method -Since recoupment of the original capital invested in a
project is an important consideration in appraising a capital investment, the method of
working out the pay back period lays emphasis on the calculation of the time it takes to
recoup the expenditure incurred on the project. In the table given below, the pay back
period is 5 years, as the accumulation of the net cash flow, year by year equals the
initial investment at the end of 5 years:

Original Investment-Rs. 1,00,000
Net Cash Flows (i. e., net earnings or reduction in expenditure) : -

Year Annual Cumulative

Rs. Rs.
1 10,000 10,000
2 12,000 22,000
3 20,000 42,000
4 30,000 72,000
5 28,000 1,00,000

Under this method no attempt is made to assess the return on the capital invested. It
only shows the length of time required to recoup the amount invested on the project,
the assumption being that projects with short pay back period are better investment
propositions than those with long pay back periods. Bare recoupment of the amount
invested under the pay back period method would yield no return unless a suitable
rate of interest return on the capital outstanding in each of the years involved is built
into the calculation of the net cash flow.

224. The method of ranking projects, or project grading, on the basis of pay back
period is of limited application as it can be employed only in situations where there is a
strict time limit to the investment before the expiry of the useful life of the project. An
example would be of a proposed investment in a project in a foreign country where the
political stability can be foreseen only for a limited number of years, or in plant and
machinery involving processes or products that are likely to be replaced by
technological changes within a few years or a 'single purpose' new line where the
known reserves of coal, iron ore, etc., are expected to be depleted/exhausted after a
specific number of years. Though presently not in vogue on the Indian Railways, there
is no bar to the application of the Pay Back Period method to evaluation of Railway
Projects in consultation with the Financial Adviser and Chief Accounts Officer in the
special circumstances illustrated in this Para.

225. Discounted Cash Flow -The accounting 'Rate of Return' (R.O.R.) Method
commonly in use on the Railways does not take into account the time value of money.
Also, the return on investment is worked out as at the time of completion of the project
or at a single point of time (6th year or 11th year) and not through the entire useful life
of the project. The R.O.R. method may, therefore, yield an incorrect result depending
on the point of time selected for the purpose of project appraisal. A factor of
fundamental importance to investment decisions and one which the R.O.R. method
does not take into account is the timing of profits and cash flows that result from an
investment and this factor is crucial to the Discounted Cash Flow Method of project
appraisal.

226. Net Present Value (NPV) or Net Present Worth (NPW) -The concept of
the time value of money which is basic to the Discounted Cash Flow Method is
illustrated thus :
Rs.100 receivable today is more than Rs.100 receivable a year hence, as Rs. 100
received today will earn interest or profits and shall accumulate to more than Rs. 100
in a year's time. Alternatively, Rs. 100 received today can be used to reduce borrowing
thereby avoiding interest payments as well as reducing debts by Rs.100. Assuming that
the Railways' cost of finance is its current dividend rate (say 10% per annum), Rs. 110
received a year hence should be worth Rs.100 today and Rs.100 which may be
received in a year's time is worth about Rs. 91 today (actually it is worth Rs.90.91).
Likewise, the present value of Rs.100 receivable 2 years hence is about Rs.82.64, and
so on. In this way the cash flow for the project in any future year can be discounted to
obtain the present value.

227. The NPV/NPW of a project is sum of the present values of the net cash flows for
all the years of the project's economic life. The net cash flow in each year will be the
expected net reduction in expenditure or increase in net earnings. The net cash flows
are discounted to arrive at the NPV of a project by applying a pre- determined discount
rate. For example, consider the following excerpts:

TABLE - A
From Col.2 under ‘Single payment’
Present value of Re. 1
Year 12% 15% 20%
1 0.893 0.870 0.833
2 0.797 0.756 0.694
3 0.712 0.657 0.579
4 0.635 0.572 0.482
5 0.567 0.498 0.402

TABLE-B
From Col. 4 under 'Uniform series'
Present Value of Re.1 received annually
Year
12% 15% 20%
1 0.893 0.870 0.833
2 1.690 1.626 1.528
3 2.402 2.283 2.106
4 3.037 2.855 2.589
5 3.605 3.352 2.991

TABLE -B is derived by adding the data in TABLE -A. At 20% the 0.833 in TABLE-B is
the same as the 0.833 in TABLE-A since the time involved is only one year. The 0.833
and the 0.694 for years 1 and 2 under 20% represent the 1.528 under TABLE-B at 20%
in year 2. The 0.833, 0.694 and 0.579 in TABLE-A are added to form the 2.106 in
TABLE-B. Thus, it can be seen that TABLE-B is essentially a summation of TABLE-A.
With TABLE-B, present value calculations can be made more quickly if the cash inflows
or out flows are constant. Instead of multiplying the same cash flows by the individual
items of TABLE-A, one can multiply the annual cash flow only once by the sum of
the data in TABLE-A which is conveniently arranged in TABLE-B.

228. Annual Cash Flows- It is important that the annual cash flows should be
estimated on a realistic basis. By definition, the cash flow will take into account only the
realisable revenue and cash expenditure or, in the case of expenditure reducing
projects, the net reduction in cash expenditure. Purely accounting adjustments such as
depreciation and other provisions are to be completely ignored. The reason is that cash
flow is the foundation of the NPV and depreciation is an expense item not involving a
flow of cash. It is implicit in the basic arithmetic of the D.C.F. Method of project
appraisal that so long as the cash flows are adequate from year to year and the NPV
computed at the requisite discount rate equals or exceeds the investment, the capital
invested in the Project will remain intact. This is shown by a solved example below :

Basic data-
Initial investment- Rs. 4,00,000
Annual Cash Flow- Rs. 1,00,000
Life of the Project- 10 years
DCF rate of return (say)- 21.4%(See Para 230)

Year Capital in Net Payment Recovery Capital at the
the surplus of interest of Capital end of the Year
beginning of the year @
the year 21.41 %
(1) (2) (3) (4) (5) (6)
1 4,00,000 1,00,000 85,652 14,348 3,85,652
2 3,85,652 1,00,000 82,580 17,420 3,68,232
3 3,68,232 1,00,000 78,919 21,081 3,47,151
4 3,47,151 1,00,000 74,335 25,665 3,21,486
5 3,21,486 1,00,000 68,840 31,160 2,90,326
6 2,90,326 1,00,000 62,168 37,832 2,52,494
7 2,52,494 1,00,000 54,067 45,933 2,06,561
8 2,06,561 1,00,000 44,231 55,769 1,50,792
9 1,50,792 1,00,000 32,289 67,711 83,081
10 83,081 1,00,000 17,790 82,210 871

3,99,129
The small margin of difference (Rs.871) is accounted by the error in interpolation of the
rate of return. It will be seen that at the discount rate of 21.41%, the project has
recovered the original cost in full (Col. 5), apart from paying off interest at the same
rate.

229. Rate of return under D. C. F.-Two alternative methods can be used for
assessing the viability of a project under the D. C. F. technique. For example, assuming
an even cash flow of Rs.4,000 per annum over a period of 10 years in respect of a
project where the original investment is estimated to be Rs.18,000, it will be observed
from the following table that the discount factor of 4.5 (18,000 ÷ 4,000) occurs against
the 10th year under the discount rate of 18%:
Present value of the Re. 1 received annually
Year 16% 18% 20%
8 4.344 4.078 3.837
9 4.607 4.303 4.031
10 4.833 4.494 4.192
11 5.029 4.656 4.327

In this case the rate of return under the D.C.F method for an even cash flow of
Rs.4,000 per annum for an investment of Rs.18,000 will be about 18%. Since the
D.C.F. return of 18% is more than the minimum acceptable rate of return
(say 10%) , the project would be considered desirable from the financial point of'
view. Under an alternative method, the minimum acceptable rate of return
(say 10%) would be applied to calculate the NPV of the project. If the NPV is
(zero or) positive, it would be financially acceptable, and if the NPV is negative, the
project will not be financially acceptable. In judging the ranking of competing projects,
under the first method, the D. C. F. rate of return would be used and whichever project
gives the higher rate of return would be preferred. Under the second method, the
competing projects will be ranked according to their NPV and whichever project gives a
higher NPV at the minimum acceptable rate of return would be the preferred project.

230. Another illustration may be given of a case where the initial outgo of (say) Rs.
4,00,000 is incurred in one year and the project starts giving a net cash flow of
Rs.1,00,000 per annum over 10 years thereafter. Discounted cash flow at various rates
of interest would be as shown below where the cash flows are uniform throughout the
project life:
 10% 20% 25%

Factor for 10th year 6.145 4.192 3.571
NPV for even cash flow of 6,14, 500 4,19,200 3,57,100
Re. 1 lakh per annum
R.O.R. will be about 21.41%

231. The simple illustrations given above presume that the investment is completed
in one year and the project starts yielding a return immediately thereafter. Where the
investment is spread over a number of years, it is necessary to work out the value of
the investment, by applying the relevant rate of interest, from the inception up to the
point when the project is expected to be ready for operation, the rate of interest
being the minimum acceptable rate of return of (say) 10%. In the illustration given in
the preceding para, if the investment of Rs. 4,00,000 is assumed to have been spread
over a period of three years including the year in which the project was completed, the
total investment, inclusive of interest, up to the year of completion would be as shown
below :-

0% 10%
Year Interest Rs. Interest
Rs.
-2 1,00,000 1,21,000
-1 1,50,000 1,65,000
0 1,50,000 1,50,000
Total investment 4,00,000 4,36,000

In this case, if the net return over the life of the project of ten years assumed in the
earlier illustration is constant amount of Rs.100,000, the return would be about 18%
instead of 21.41 % worked out in Para 230.

232. A short write-up on the technique of working out the rate of return under the
Discounted Cash Flow Method is at Annexure 'D'. Detailed examples of railway projects
showing application of the D. C. F. technique are given in Annexure 'E'.

233. Residual Value -Each project will have an estimated life span at the end of
which the various assets will be disposed of or put to other uses. The flow of funds
created by the sale or disposal of the assets at the end of the life of the project should
be estimated so that appropriate credit can be given to the project in the year in which
the flow of funds is expected to occur by the sale or disposal of the assets. Since all the
assets may not be discarded or sold at the same time, the cash flows resulting from
residual values should be allocated to the years in which they are likely to be received.
If some of the assets are to be taken out of service and disposed of before the
termination of the project, the resultant cash flows must be included in the appropriate
years.

234. Alternative Schemes - Equivalent Annual Cost - The criterion of choice
between alternative schemes, each of which is capable of rendering the required
service, is the principle of least cost in the long run. This approach is particularly
applicable when the cash outflows under each competing project have sharply different
time patterns. To obtain the annual cost, the outlays of the project are summarised into
a single present worth amount and then spread over the years of the project life as an
equal amount per year, which includes interest at a standard rate. By the same
summarization and spreading for an alternate project, the two projects can be
compared by reference to the per year figure for each. The comparison is usually of
cost only, revenues being assumed as the same under either project. An illustration
appears below :

Year 0 1 2 3 4 Total.

Project A :
cash inflows (the same as for Project B)
cash outflows (104) (5) (1 0) (1 5) (20) (154)
Project B :
cash inflows (the same as for Project A)
cash outflows 10% (45) (30) (30) (30) (30) (165)
Worth Factors 1.00.91.83.75.68....

Present Worth : Project
A (104) (5) (8) (11) (14) (142)
Project B (45) (27) (25) (22) (20) (139)
*Equivalent Annual Cost :
Project A.... (45) (45) (45) (45)...
Project B... (44) (44) (44) (44)...

*These annual amounts are determined by dividing the project present
worth by the present worth of a four-year Re.1/ - per year annuity. This is
the sum of the individual present worth factors.91,.83,.75,.68 which
totals Rs 3.17.
The above analysis shows that Project ‘B’ has the lower uniform annual cost, by a small
margin, even though it shows a larger total outlay. The reason for this is that the
project outlays take place later under Project 'B', which reduces its present worth
and lowers its annual cost including interest, relative to Project 'A'.

235. Economic Evaluation. -As a commercial undertaking, it is incumbent on the
Railways to ensure that a proper financial return is earned from every investment
subject to the exceptions given in Para 202. At the same time it has to be borne in
mind that the Railways are an important instrument of economic and industrial
development of backward areas not connected by a reliable transport network. In the
case of major projects such as new line constructions, or change of traction from
diesel to electric, the benefits likely to be realised by the economy as a whole are
assessed by the Economic Adviser to the Railway Board. The principles on which
economic evaluation of Railway investments should be carried out as distinct from
working out a financial return to the Railways, are indicated in the note (together with
an illustration) at Annexure 'F’.

235A. A detailed economic appraisal framework is given in Annexure- ‘I’.

236. Replacements and Renewals -The proposal for replacement of an existing
asset (whether involving improvement or otherwise) should be examined critically with
a view to seeing whether it would not be possible to avoid, or, at least, postpone such
replacement by suitable repairing or reconditioning the asset at a cost that could be
comparatively justified financially. In all cases in which it is considered necessary to
replace an asset, instead of reconditioning it, it should be examined whether the
estimated average annual cost of service (i. e. cost of operation and maintenance,
sinking fund payment to the depreciation fund, and the interest on the cost of the
asset), or the estimated average cost per unit of service of the new asset is likely to be
less than that of the old asset after reconditioning. Except when renewals or
replacements are inevitable, the expenditure chargeable to the Depreciation Reserve
Fund, should be financially justified in the same manner as any other expenditure of
capital nature.

237. Where a replacement is proposed on grounds of economy in operation and
maintenance costs, the estimate therefore should justify the o u t g o on the proposed
replacement by showing that the average annual cost of service or the average cost
per unit of service, that will be rendered by the new asset, is less than that of the
existing asset.
Note -The above two paragraphs will not apply to cases of casual or programme
renewals, not involving any improvement.

238. Reconditioning – When an as asset is repaired at a comparatively high cost in
preference to its being replaced, it is referred to as being ‘reconditioned’. The cost of
such reconditioning is chargeable to Ordinary Repairs and Maintenance. It may be noted
that reconditioning is different from routine repair. For all reconditioning works, detailed
estimates should be prepared.

239. Scrapping, condemning and abandoning assets - An asset may be
scrapped, condemned or abandoned without replacement, when the service rendered
by it is no longer required. If the service rendered by it is still necessary and if it is
proposed to make other arrangements for such service, it should be definitely
established that it is more economical to scrap, condemn or abandon the existing asset
and obtain the required service from the new arrangement than to continue to obtain
the required service from the existing asset. Here also the relative economics of the two
proposals should be assessed on the basis of the average annual cost of service or the
average cost per unit of service, as the case may be.

Note -The preparation of financial justification as contemplated in this paragraph is not
necessary for condemning rolling stock in the following cases:-

i) Overaged stock due to be replaced by virtue of their age but condemned
before replacement.
ii) Under or overage stock involved in accidents and certified to be irrepairable
(not included under the category of “beyond economical repairs”).
iii) Non I.R.S. type coaches and wagons of inherently weak design proposed to
be condemned on condition basis whether under or overage.

240. Examples are given in Annexure ‘G’ illustrating the method of financial
justification to be adopted in the case of replacement, reconditioning or abandonment of
existing assets. The data used in the illustrations are hypothetical and the methods
adopted are not to be regarded as exhaustive or as precluding the use of other methods
that may be found to be more appropriate. The D.C.F. method can be conveniently
used in some cases as has been shown in Example (1) of Annexure ‘G’.

241. Second-hand Value- The second-hand value of an asset is what it is presently
worth and has often to be distinguished from its scrap value. For purposes of financial
justification of transfer, purchase or sales, the second-hand value of assets may, except
in certain cases (e.g. rails, locomotives, boilers, etc.) where separate rules have been
prescribed for the determination of the second-hand value, be determined as provided
below :-

i) The first cost of an asset (based on which its second-hand value has to be
computed) should be taken as the value of a similar asset at present day
prices and not the value actually paid for the asset when it was originally
purchased.
ii) The second-hand value of an asset that does not depreciate is the same as
the first cost.
iii) The second-hand value of a depreciating asset should be so appraised that
the average annual cost of service or the average cost per unit of service, as
the case may be, of the second-hand asset is equal to that of the same or
similar asset while new.

242. Examples illustrating the application of the principles enunciated in the preceding
paragraph are given in Annexure ‘H’.

243. Post project appraisal - It is important that an investment proposal is
subjected to proper financial appraisal not only before it is a sanctioned but also a
certain period of time after the project has been in operation. Whether the financial
return anticipated from a project at the estimate stage is actually realised in due course
or not should be determined by conducting a ‘Productivity test’ in respect of all major
works. For any such comparison to be meaningful and realistic, it is important that the
computation of the actual additional earnings and working expenses is done on the
same lines as at the project estimate stage. As commercial profitability is liable to be
affected by escalation in prices or any other extraneous development, in order to have
a more reliable and accurate evaluation wherever relevant, a comparison in terms of
physical units of throughput may be carried out. Such a comparison should preferably
be done class-wise in the case of passenger traffic and commodity-wise in the case of
goods traffic. The post project appraisal should be conducted by the user department in
consultation with Engineering and Finance.

Further, all projects sanctioned on the basis of ROR, should be subjected to mid term
review at the time of every revision of estimated cost. Such review shall consist of
review of both existing projection in current scenario, revised estimated cost and
consequential change in ROR. Financial feasibility of project need be assessed and
 commented by General Managers of Zonal Railway.

244. New Lines - In respect of each new line opened for traffic, the railway
administration should submit to the Railway Board a statement, showing the financial
results of its working in Form No. 244 shown below. The statement should reach the
Railway Board not later than the 31st December following the financial year to which it
refers and should be accompanied by a covering memorandum in which brief
explanations should be given of important variations between the actual realisation and
the estimated revenue, together with a Note by the General Manager indicating how the
actual net cash flow compares with what was estimated at the project stage. The Note
should also bring out the probable traffic prospects of the line in the sixth and the
eleventh year of opening.

Statement showing Financial Results of working of New Branch Lines.
Form No.F.244

Railway ---------------------------------- Name of branch -----------------------------------
Length in Kilometers---------------------- Gauge ---------------Opened on--------------------

Year Cost on 31st Earnings of Actual expenditure of Net earning of
March plus Branch line branch assessed on branch proper
calculated interest proper the basis of (Col.3-4)
during costing/financial
construction. data applied to the
traffic over the
branch line
Working expenses
(excluding
depreciation &
interest)
As Actuals As Actuals As Actuals As Actua
originally originally originally originally ls
Estimated Estimated Estimated Estimated
(1) (2) (3) (4) (5)
Actuals after opening -
-
1st year
2nd year
3rd year
4th year
5th year
6th year
7th year
8th year
9th year
10th yr and so on
upto 30 years

Main line Additional net Total net Return Remark
Additional Additional earnings (Col.6- earnings on s
revenue minus expenses 7). (Col.5+8) Total
any loss due to calculated on the cost
short circuiting basis of costing/ Col.9
or diversion of financial data x
traffic. applied to traffic 100
from the existing
line to branch line
and vice-versa
Working expenses Col.2
(excluding
Depreciation &
interest)
As Actual As Actual As Actual As Actual
originally s originally s originally s originally s
estimate estimate estimate estimate
d d d d
6 7 8 9 9A 10

Foot notes to Form No. F. 244.-
i) Actuals will be actuals to end of the year for which accounts have been closed,
and fresh estimates for the years thereafter.
ii) Special steps taken in the course of the year -
(a) To develop the traffic revenue- (b) To reduce the expenses
(i) (i)
(ii) (ii)
(iii) (iii)
(iv) (iv)
 iii) Probable future development of traffic and possibility of the line paying its way
(short note)—

Head of Traffic Department Head of Account Deportment

Note- The traffic data required to be maintained vide Para 245 should be used for
costing purposes so as to arrive at the expenditure of the Branch proper and of traffic
moving from the existing line to the Branch line and vice versa.

245. The following statistics should be maintained from year to year in respect of
all new lines opened for traffic and submitted to the Railway Board by l st August of
each year :-

i) a) Passenger revenue from traffic local to the branch line.
b) Other coaching revenue from traffic local to the branch line.
ii) a) Passenger revenue from traffic from the new line to the existing lines and vice
versa.
b) Other coaching revenue from traffic from the new line to the existing lines and
vice versa.
iii) a) Tonnage of goods traffic local to the branch line.
b) Tonnage of goods traffic inter-changed with the existing lines
iv) a) Revenue from goods traffic local to the branch line.
b) Revenue from goods traffic interchanged with the existing lines.

246. The following instructions should be followed in preparing the statement F-244 :-

i) Column 3 should indicate the revenue of the branch from all traffic
originating therein, whether local or foreign (Proportion due to the branch)
and all traffic received from the main line.
ii) Columns 4 & 5 should be worked out on the basis of the costing/financial
data under Group 'C' (see Annexure 'A') in respect of the traffic referred to in
(i) above.
iii) The additional or new traffic interchanged to be shown in column 6 should
include only that portion of the traffic received by the main line from the new
branch and of the traffic from the main line to the branch, which arises solely
from the construction of the new branch line. In the absence of actual figures
of additional traffic interchanged with the existing lines, a reasonably
approximate figure may be adopted. In the case of chord line short-circuiting
 a previously existing route, figures relating to cross traffic which would have
been carried by the previously existing route, if the chord line had not been
constructed, may be omitted from this statement and a proportionate
reduction in the working expenses on the branch line made. Column 7 should
be worked out on the basis of costing financial data under group ‘C’ (See
Annexure 'A' and para 217).

247. The statements vide Paras 244 & 245 should be submitted for every completed
financial year after the date of opening of the new line for a period of 11 years. The
actuals for the years to end of which accounts have been closed and the cash flows for
the remaining years of the assumed project life should be arrived at on the basis of the
best possible estimation. The entire series of net cash flows should then be discounted
to arrive at the rate of return compared to the originally expected return. In case the
actual cash flows shown in statement F.244 indicate a fair degree of proximity to the
original estimates, it may be assumed that the cash flows for the remaining years of the
project life will also follow the same trend unless definite foreknowledge is available to
the contrary. If a review of the annual cash flows for a sufficiently long period (say 5 to
7 years) indicates that the cash flows have settled down, within limits, to a 'uniform'
series, the Railway Board may decide that submission of the Statements F. 244 & F.
245 for future years in the case of a particular new line be discontinued.

248. Open Line Works – For the purpose of applying the productivity tests to open
line works, i.e. works undertaken with the definite object of increasing revenue or
reducing expenditure and to which such tests can be applied within five to seven
years of their completion, selection will be made out of these works sanctioned
(and/or charged to Capital) on grounds of remunerativeness. All such works costing
over Rs. 1 crore will invariably be subjected to this test. The result of the test should
be reported by the General Managers to the Railway Board. As stated earlier in the
preceding para in the case of New Lines, the actual net cash inflow for each year, to
end of the 5th/7th year from the date of commissioning should be recorded for each
open line work to be subjected to the productivity test, and the cash flows for the
rest of the project life assessed on the basis of the latest estimate. The whole series of
net cash flow should then be discounted to arrive at the rate of return compared to the
return originally expected.

249. In addition to productivity test to be conducted as provided in paragraph 248
above, a productivity review should also be undertaken in respect of selected works
costing over Rs. 50 lakhs which are estimated to fetch some return, even though not
the return prescribed for a work being classified as remunerative. The methodology to
be followed will be the same as prescribed in the preceding para in respect of works
costing over Rs.1 crore each.

Note-Justification for works or part of a scheme should show the probable period ,that
will elapse between the completion of the works and the time when the productivity
review can be made. This note equally applies to paragraph 248.

250. The fact that productivity tests are to be applied to a particular work should be
intimated to the authorities entrusted with its execution as also to the Finance and
Audit officers. In respect of all such selected works, the Financial Adviser and Chief
Accounts Officer should a l s o keep such statistics as would be necessary for the
verification of the tests conducted by executive, in addition to those usually available.

251. In order to ensure that a work selected either by the Railway Board or by the
General Manager for the application of productivity tests or review is not lost sight of,
Executive Officers and Finance Officers should maintain a register containing a list
showing the following particulars :-
i) Reference to sanction of the estimate.
ii) Brief particulars of work selected for the application of
productivity tests or review.
iii) Total estimated expenditure.
iv) Nature and extent of "productivity" claimed in the estimate.
v) When the test or review is to be applied.
vi) Brief remarks about the results of the test or review.

This list should be reviewed half-yearly and timely action taken to apply the test or
review to all works due for examination during each half-year.

252. When, in due course, the tests or reviews are actually applied or carried out, the
Financial Adviser and Chief Accounts Officer after verifying should submit a report
embodying the results of the test or review to the General Manager. In case of works
sanctioned by the Railway Board, the General Manager will submit the Financial Adviser
and Chief Accounts Officer's report to the Railway Board with his own comments. The
object of these reports is not only to furnish information about results actually achieved
to the authority who sanctioned the expenditure but also to serve as a lesson for the
future.
*****
 ANNEXURE -A
(Please refer to Annexure I & J also)
(Ref. paras 216 and 217)

Check List With Detailed Notes For Guidance Of Zonal Railways And Concerned
Branches In Railway Board's Office, In The Preparation Of Project Estimates

The procedures and methodology to be adopted for a proper financial
appraisal of projects are laid down in the Engineering Code and in the Report of the
Committee on Technique of Financial Appraisal of Railway Projects as well as the
circulars issued by the Railway Board from time to time.

2. Some of the survey reports submitted by the Zonal Railways were
scrutinised by the Cost Analysis Cell of the Board's office. It was found that the
estimates of working expenses have been substantially understated owing to many
important elements such as empty haulage, number of marshallings, tare tonne
kilometres, etc., not having been taken into account by the Zonal Railways. In
some cases, instead of applying the unit costs the Railways have adopted the
operating ratio to estimate the working expenses. The operating ratio is only an
end figure and should not, therefore, be used for estimating working expenses.
Further, the revenues depend on the product mix, i. e., the proportion of the high-
rated, low-rated commodities or short lead or long-lead traffic and the estimate
made thereof should be reasonably correct.

3. In order to ensure that no item of cost is excluded and no item of
cost is over stated / understated, a check list, together with detailed notes, has
been prepared for the guidance of the Zonal Railways and the concerned staff of
the Railway Board's office (E.A. Branch F (X) Branch and Planning Branch). The
more common mistakes and deficiencies noted in the calculations at present can be
avoided if the check list is adhered to.

4. Unit costs are worked out for the broad and metre gauge systems of
each of the Zonal Railways under 3 main groups-

Group ‘A’ – Gives the unit costs applicable for all- traction movement. These
unit costs include the direct costs as well as the element of overheads.

Group 'B' - Gives unit costs for particular facets, as cost per shunting engine
 hour, train engine hour, engine hour etc., for each traction. The unit costs in this
group include the element of overheads.

Group 'C'- Gives unit costs traction-wise. The wagon provision costs which
include the element of repairs and maintenance, interest and depreciation, are
separately shown. The overheads and the central charges are separately indicated.

Unit costs of line haul are worked out separately for through trains and van
and shunting trains under both groups 'A' and 'C'.

All the unit costs are furnished separately under 3 heads - Working
Expenses, Depreciation and Interest, so that the rate of return can be worked out
both under the conventional method or D.C.F. technique.

Group 'A' and Group 'C' costs are more widely used for assessing the
costs of specific flows or streams of traffic. If the traction is known, the Group 'C'
costs are adopted. If the traction of line haul is not defined or specific, then all-
traction figures in Group 'A' are adopted. Group 'C' costs are much more refined
and specific and, therefore, by taking note of special characteristics of operation
the costs may be estimated with a higher degree of accuracy. Group 'B' costs are
generally used for estimating the savings in monetary terms of engine hours,
wagon hours and shunting engine hours.
5. Study has been made to estimate broadly the variability of different
items of expenditure with appropriate units of performance. The results of the
study are summarised at the end of this Annexure.

6. In estimating the expenditure in respect of additional traffic the
variability factors mentioned above should be adopted to arrive at the long- term
variable costs. In estimating the expenditure in respect of existing traffic, however,
the fully distributed cost should be used.

7. Check list -The check list and procedures/steps for estimating the
costs are detailed below :-
Existing line Project line
Existing Additional Existing Additional
traffic traffic traffic traffic
Freight Traffic-
a) Tonnage loaded under specific
b) commodities Tonnage unloaded under
c) specific commodities Tonnage transhipped
d) Tonnage repacked
e) Tonnage of cross
f) traffic Load of specific
g) traffic Net tonne
h) kilometres Loaded
i) wagon kms.
j) Empty wagon kms.
k) Tare tonne
1) Kilometres Gross
m) tonne Kilometres
n) Engine Kilometres
o) Train Kilometres
p) No. and name of marshalling
yards. No. and name of
Repacking points. No. and name
of Transhipment points
Coaching/Passenger traffic-
a) No. of Passengers-
(i) Originating
(ii) incoming
b) Train Kilometres
c) Engine Kilometres
d) Vehicle Kilometres.

8. The Traffic Survey Report should give in detail the quantum of
existing freight traffic (originating, terminating, transhipped, cross, etc.) under
important commodity groups, the pattern of movement (origin and destination of
the important flows), the quantum assessed, both in terms of tonnes and in terms
of B.G. or M.G.4-wheeler wagons. The additional traffic should also be assessed in a
similar fashion. In case any difficulty is experienced in converting the tonnes into
wagons, the figures of average starting loads (separately for originating and
transhipped traffic) shown in the monthly wagon loading statements may be
adopted. Otherwise, the minimum weight condition as per goods tariff may be
taken into account.

9. Empty haulage should be carefully calculated taking into account the
outward and inward traffic commodity-wise and equipment-wise. The source of
empties should also be indicated so that the empty haulage may be reasonably
assessed. Otherwise, following norms may be adopted :-
 BFRs, Oil tanks, BOBs , BOI and Special types, etc. (B.G. and M.G.) 100%
POL Traffic, iron ore traffic, industrial raw material to steel plants, etc.(B.G. & M.G.) 100%
Coal--Average B. G. 80 %
Other commodities -B.G. 23 %
M. G. (including coal) 33 %

The correct estimate of empty haulage is very essential as this element appears in the
calculation of –
i) Wagon kilometres,
ii) Gross tonne kilometres,
iii) Engine kilometres,
iv) Train kilometres,
v) Wagon days,
vi) Engine days, and
vii) Number of marshalling
yards.

10. Marshalling yards. --The survey report should specify the Inward,
outward and cross traffic dealt with at different marshalling yards on the project
line and the existing main line. This should be separately assessed for the existing
traffic and the additional traffic. We should take into account not only the loaded
journeys but also the empty journeys of wagons. In case traffic bypasses the
marshalling yard, detention to stock for carriage and wagons/train examination for
engine changing and crew changing should be taken into account.

There are at least 2 marshalling yards for any movement irrespective of
distance. The study reveals frequency of marshalling as indicated below:

Broad Gauge Metre Gauge

1-40 Kms. 2.00 2.00
41-120 Kms. 3.00 3.00
121-240 Kms. 3.50 3.50
241-500 Kms. 4.00 4.00
501-800 Kms. 4.50 5.00
801-1300 Kms. 5.00 6.50
1301 and above 5.50 7.50

The above is only for wagons moving in piece-meal. Where the wagons
are moving in a specific stream of Traffic, the actual marshalling requirements
should be assessed on the concerned route.
11. Terminal:- Documentation charges are calculated on the basis of one
invoice per 4-wheeler wagon in the case of wagon load traffic and one invoice for
0.54 tonne of smalls traffic.

In the case of train load movement, one invoice may be adopted for 10 four-wheeler
wagons.

There are cases under which one-end terminal documentation is performed by the
staff employed by the consignee or the consignor. In those cases, this element of
cost for one end may be omitted.
Two terminal costs should be taken, one for the originating end and the other for the
destination end.
12. A special study has been made in the case of coal traffic. The coal
terminal costs at the originating end for 1970-71 are given below :-

Cost Per Wagon
Rail Termina Trip haul between base Other Total
way l Cost yard and collieries costs originating
Terminal
costs
Rs. Rs. Rs. Rs.
Central 15.485 8.046 24.649 48.180
Eastern 17.436 8.307 19.870 45.613
South Central 8.605 4.918 17.210 30.733
South Eastern 19.118 11.101 19.514 49.733
Total Indian Railways (B.G.) 17.202 8.803 19.917 45.922

At the destination end, the average unit costs would apply even in the case of
coal traffic.

13. Wagon days - It is not correct to adopt wagon kilometres per wagon
day for assessing the wagon requirements. To illustrate this point, the example of a
short distance traffic of lead of 40 kilometres with an empty return ratio of 100%
may be considered. The wagon requirement on the basis of wagon kilometres per
wagon day would work out to only one wagon day. It is common knowledge that it
would take at least 3 days for the wagon to be loaded, unloaded and brought back to
the loading point for the subsequent loading, if the detention to stock at the
originating end, terminating end, transit time and contiguous marshalling yards were
properly taken into account. In the case of fairly long-lead traffic, the wagon user
index may be adopted.

14. Engine kilometres - After calculating the train kilometres on the
basis of the permissible load (in terms of BOX or 4-wheelers and the gross load) on
various sections, the engine kilometres should be assessed on the basis of -

i) Single engine operation or multiple engine
operation,
ii) Banking engines over gradient sections; and
iii) Light engines.

Figures of engine kilometres per engine day used for goods traffic are readily
available in the Annual Reports and Statistical Pamphlets for each traction. It should
be possible to work out engine days required on this basis after giving due allowance
for the element of repairs and spares.

For example, 4 million tonnes of iron ore are to be moved over a section 100
kms. in length. The movement will be in BOX wagons with load of 55 tonnes each.
The section is heavily graded and the trains will run triple headed (diesel traction)
with a load of 40 BOX’s plus an additional banking engine over a section of 8
kms. Estimates of engine km/engine days will be as follows :-

1) No. of trains each way 1,818
2) Train kms. both ways with 100% empty return (1818 x 2 x 100) 3,63,600
3) Assisting required and Assisting not required Engine km. 7,27,200
4) Banking engine kms. (1818 x 2 x 8) 29,088
5) Light engine kms. (say 6% of train kms.) 21,816
1,41,704
6) Bare-engine days required @ say 360 km. per engine day in use 3172
(goods).
7) Total engine days required (add 16% for POH, spares, etc.) 3680 or
10 engines

The nature of movement should also be taken into account, i. e., whether the
traffic is carried by shunting and van train or by through trains. The cost
characteristics are different and separate unit costs are available.

15. Fuel and lubrication costs are calculated on the basis of GTKms. Other
 operating costs (line haul) are calculated on the basis of train kilometres/engine
kilometres.

16. Track and signalling line haul -This is calculated on the basis of
GTKms. The average unit costs are not adopted for estimating the cost under track
and signalling. A slight refinement is made taking into account the variability of this
item of expenditure with reference to GTKms. The variability studies reveal that 50%
of this expenditure is variable with GTKms. The average unit costs applicable to B.G.
or M. G. systems of an individual Railway are adjusted by taking into account the
specific density of traffic on the route or sections involved and the average density of
the Zonal Railway system. As an illustration, a section with an average density of
18,000 tonnes per day as against the average density of 12,000 tonnes per day on
the gauge may be considered. If the average unit cost for the gauge is Rs. 6.00 per
1000 GTKms., then the average unit cost for the section will be

= Rs.3 + ⌠ Rs.3 x 12000 ⌡ or Rs.5 per 1000G.T.Kms.
⌠ 18000 ⌡

Particulars of Service for which unit costs of freight services are worked out on Indian Railways
(See para 4 of Annexure A).
Line No. Particulars
GROUP A
1. Terminal Cost per Tonne-Smalls.
2. Terminal Cost per Tonne-Full Loads.
3. Total Terminal Cost per Wagon-Full Loads.
4. Repacking Cost of smalls per tonne per
handling.
5. Transhipment Cost at Break of Gauge per tonne per
6. transhipment. Marshalling Cost per Wagon per yard handled.
7. Line Haul Cost -per train kilometre.
8. Line Haul Cost-per Wagon kilometre (Rev.)
9. Line Haul Cost-per net tonne kilometre (Pay Load).
10. Line Haul Cost-per Wagon kilometre (Carrying
Unit).
(i) Through Goods Trains.
11. Line haul Cost per train Km.
12. Line haul Cost per Wagon Km. (Rev.)
13. Line haul Cost per NTKm (Pay Load).
14. Line haul Cost per Wagon Km. (Carrying units).
(ii) Van and Shunting Goods.
15. Line haul Cost per train Km.
16. Line haul Cost per Wagon Km. (Rev.)
17. Line hau1 Cost per NTKm. (pay load).
18. Line haul Cost per Wagon Km. (Carrying Units).

GROUP B

19. Cost of Documentation per Invoice.

20 Cost of Traction per Engine Hour (Other than shunting Diesel (Total).
and siding)
21. ,, ,, ,, ,, ,, ,, Electric (Total).
22. ,, ,, ,, ,, ,, Diesel (Fuel and stores)
23. ,, ,, ,, ,, ,, Electric (Electric
current consumed)
24. Cost of Traction per Train Engine Hour. Diesel (Total)
25. ,, ,, Electric (Total).
26 ,, ,, Diesel (Fuel and Stores).
27 ,, ,, Electric (Electric current
consumed).

28. Cost of Traction per 1000 G.T.Kms.. Diesel (Total)
29 ,, ,, Electric (Total).

30. Cost of Traction per 1000 G.T.Kms.. Diesel (Fuel and Stores).
31. ,