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166
TRAMWAY
  


estimates for British tramways were therefore prepared from American and continental results. The following figures summarize a number of estimates made at this period; the first table gives the figures for capital cost, and the second for operating expenses. The receipts were estimated at 10d per car mile.

Capital cost
per mile of
single track
£
Permanent way, including bonding 5050
Overhead equipment. 750
Feeder cables 400
Cars at £700 each 2100
Car sheds, sundries and contingencies 1200
——
Total £9500


Operating expenses per car mile
Electrical energy 1·50d
Wages of drivers and conductors 1·10
Car shed expenses, wages an stores 0·55
General expenses 0·90
Repairs and maintenance 1·25

Total 5·30d.

The estimates gave reason to expect that electric traction would mean cheaper fares and more frequent services at a higher speed, resulting in a considerable increase in traffic receipts permile and a substantial reduction of working expenses. The result of pioneer undertakings in South Staffordshire, Bristol and Coventry supported this expectation. Later experience, however, showed that the estimates were too optimistic. Taking the actual figures realized for the undertakings included in the above tables, the capital expenditure per mile of, single track was £12,000 and the wor ing expenses per car mile 6·3d. The expectations as to gross revenue have been generally realized, but the increase in capital expenditure and working expenses over the estimates is typical of electric tramways in Great Britain. In the matter of wear and tear the estimates have also been too low. The reasons for the larger capital expenditure are (1) superior track construction, (2) more elaborate overhead equipment, (3) use of larger cars, (4) higher cost of road paving and other im movements imposed upon tramway undertakings.

According to the official returns of tramways and light railways for the year 1905–1906, there were 312 tramway undertakings in the United Kingdom, and 175 of these belonged to local authorities. Out of the total of 1491 m. of line owned by local authorities, 1276 m. are worked by these authorities themselves, and the remaining 215 m. by leasing companies. Local authorities working as well as owning their tramways made a net profit of £2,52,752, applying £663,336 to the reduction of tramway debt and £205,981 to the relief of rates, while carrying £623,617 to reserve and renewal funds. The following table summarizes the amounts expended by local authorities on electric traction:—

Year. Municipalities. £
1900  11  1,169,429 
1901  18  2,748,873 
1902  47 10,519,543 
1903  61 14,644,126 
1904  92 21,295,771 
1905 115 27,876,320 
1906 131 31,147,824 
1907 131 35,965,920 

The corresponding table for electric traction companies (including electric railways), detailing the amounts and proportions of ordinary preference and loan and debenture capital, is as follows:—

Year. Number
of under-
takings.
Ordinary
capital.
Percent.
to total.
 Preference 
capital.
Percent.
to total.
Loan and
 Debenture 
capital.
Percent.
to total.
Total.
£ £ £ £
1896 17 5,041,375 83 412,776 7630,521 10  6,084,672
1897 30 6,584,147 88 124,850 2727,176 10  7,436,173
1898–1899   51 9,793,234 68  1,640,780 11 2,972,126 21 14,406,140
1899–1900   66 11,770,777 60  3,834,761 20 4,033,992 20 19,639,530
1900–1901  75 14,558,076 55  5,904,998 23 5,686,785 22 26,149,859
1901–1902  125 19,748,965 50 9,748,891 24 10,024,327 26 39,522,183
1903 126 21,600,056 49 11,170,319 25 11,296,714 26 44,067,089
1904 156 33,491,604 54 13,219,487 22 14,895,418 24 61,606,509
1905 159 36,949,069 47 22,853,948 29 19,410,384 24 79,213,401
1906 170 38,130,981 41 25,206,988 27 29,522,581 32 92,860,550
1907 173 53,034,778 45 30,642,266 26 34,372,411 29 118,049,455 

The financial results achieved by electric traction, companies are summarized in the next table:—

Year. Number of
companies.
 Aggregate 
capital.
Average
ordinary
capital.
Average
preference
capital.
Average loan
and debenture
capital.
Total
average.
£ % %%%
1899–1900   24 9,056,332 3·87 5·56 4·64 4·37
1900–1901   37 15,021,137 4·27 5·53 4·57 4·65
1901–1902   62 28,322,117 4·07 4·44 4·53 4·29
1903  64 35,479,296 4·31 5·11 4·47 4·57
1904  77 48,789,525 4·13 4·41 4·53 4·41
1905  90 61,273,986 3·79 4·92 4·39 4·33
1906117 77,202,373 3·47 4·81 4·18 4·13
1907 118 99,315,028 2·87 4·25 4·383·78[1]

The total expenditure on tramways and light railways (omitting railways—main, branch and suburban) was £15,195,993 in 1896 and £58,177,832 in 1906.

One effect of the increased cost of expenditure per mile of track is to discourage extensions of rural and inter-urban lines where the traffic is not heavy. Proposals have been made to adopt the “rail-less trolley” (used in some places on the continent of Europe) for such extensions. In this system the cars run on ordinary wheels and take power from overhead trolley wires, But so far no such arrangement has been put into practice in Great Britain, and outlying districts are generally dealt with by petrol or steam motor vehicles, running as feeders to the tramway sand railways. The future commercial development of tramways lies more in the economics in working than in growth of track mileage. Owing, to the enormous volume of traffic a very slight alteration in one, of the items of expense or revenue produces a large result in the aggregate. The addition of 1/2d. per car mile to revenue or a corresponding reduction in expenses would, on the 240 millions of car miles run in 1905–1906, result in a gain of about £500,000 per annum, which is equal to nearly 1% on the entire capital expenditure in respect of tramways and light railways. The tables given above show that the yield upon the capital invested in electric traction is not high. The effect of increased capital expenditure has been accentuated by reductions in fares. In 1886 the average fare per passenger was, 1·61d. and in 1896 it was 1·31d., falling in 1906 as low as 1·10d. Some systems carry passengers over 21/2 m. for one penny, workmen being carried twice the distance for the same sum. Halfpenny fares are represented as a boon to the working man, but they have been abandoned as a failure after several years’ trial on several systems, and in Glasgow it is found that halfpenny fares contribute only 20·4% of the early morning traffic, while the penny fare contributes 72·3% of that traffic. The general manager of the Birmingham Corporation tramways reported against halfpenny fares on-the basis of his experience as general manager of the London County Council tramways that all the halfpenny passengers there are carried at a loss. The adjustment of fares and stages to their proper value is a question now carefully studied by tramway managers along with many problems of economy in working. The close adjustment of the service to the fluctuations in traffic is one source of economy which is being more seriously considered. Many systems have adopted top covers to cars in order to carry more passengers during wet weather. The adoption of these covers is not popular in fine weather; it adds to the weight and wind-resistance of the cars, thus increasing current consumption, and it adds to the cost of construction and maintenance. Economy in electrical, energy is, in its broader aspects, secured by purchasing current from an outside source, in. preference to generating it at a special station. The average cost per unit of electricity for all tramway undertakings in the United Kingdom is 1·06., but one tramway company which purchases its energy from a large power company pays, only 0·85d. per unit. In its narrower aspects economy in current may be secured by reducing waste car mileage—that is to say, eliminating the running of cars at times and places where they are not required for an adequate service. Saving may also be effected by supervision of the driving of the cars, since the difference of as much, as 20% has been noted between different drivers. One tramway manager secured substantial improvement by merely marking on the trolley standards the position which, the controller handle should occupy in passing each point. The limitation of stops is another source of economy, the average cost per stop on a system having been found to be 0·17 d. A slight increase in the maximum

speed of tramcars would

  1. Average reduced owing to inclusion of Metropolitan and Metropolitan District railways capital.