Part 3

In England when caught in the Thames within the jurisdiction of the Lord Mayor of London it is a _Royal Fish_ reserved for the Sovereign. The flesh is white, delicate, firm and nutritious. It is used both fresh, generally stewed. The largest species of Sturgeon is the Bielaga, or Huso. Huso (_A. Huso_) of the Black and Caspian seas and their rivers. It attains the length of 20 or 25 feet and has been known to weigh nearly 3000 lbs.

Near the site where now stands the Park Tavern at the corner of the New Road, opposite Mr. Featherstonhaugh's Brewery and not far from "The Plough & Harrow," were the flower gardens and beautiful residence of John Patient, Esq., afterwards occupied by Mr. Carne the Barge Builder. The house where Mr. Bennett, Lath-render, resides, and the house adjoining were used as a Private Asylum for the insane and was called "Sleaford House."

The picturesque and retired Country Parsonage, the residence of the Rev. J. G. Weddell, stood a considerable distance from the main road--"The Prince Alfred" tavern situate in Haine Street occupies the site. In this locality was a tenter-ground the entrance to which from the road was through a white gate.

A gateway at the commencement of "Hugman's Lane" which had "no thoroughfare" led to the works belonging to Peter Pariss and Son, Oil of Vitriol Manufacturers and Manufacturing Chemists. Mr. Wallace, who subsequently held these premises had them considerably enlarged to facilitate his project in working up gas liquor for making Sulphate of Ammonia, which is extensively used for agricultural purposes. The sewers in the neighbourhood became impregnated with a deleterious gas and the stench from the drains was intolerable. After considerable litigation with the Board of Works Mr. Wallace became a bankrupt.

By order of the Mortgagees on Wednesday and Thursday, March 3rd and 4th, 1880, Mr. Douglas Young sold by auction the plant and machinery of the above extensive works, including 5 large Cornish steam boilers, tubular boiler, 3 egg boilers, a bottle boiler, a 4000 gallon wrought iron tank, 12 smaller ditto, 4 large circular tanks, 5 steam barrel of various sizes, flange pipes, 3 large iron coils, about 70 tons old metal, several copper and iron boilers of various sizes, furnace fittings, weighing bridge by Hodgson and Stead, self-feeding boiler and engine, about 150,000 sound bricks, a large quantity of sound timber including balk timber, yellow deals, planks, battens, die-square, floor and lining boards, and 50 tons of breeze, several stacks of firewood, pantiles, drain pipes and other plant materials.

SLEAFORD STREET appears to have obtained an amount of respectability that it had not of yore. Once upon a time one side was nicknamed "Ginbottle Row," and the opposite side was called "Soapsuds Bay!" Mill-Pond Bridge was very narrow, about half its present width, with a low parapet on both sides.

If the following statement could be relied on, it would perhaps allay the fears created by certain alarmists respecting the physical limits to deep coal mining and duration of the coal supply. "There are coal deposits in various parts of Great Britain at all depths down to 10,000 or 12,000 feet. Mining is possible to a depth of 4,000 feet, but beyond this the high temperature is likely to prove a barrier. The temperature of a coal mine at a depth of 4,000 feet will probably be found as high as 120º Fahr.; but there is reason to believe that by the agency of an efficient system of ventilation the temperature may be reduced, at least during the cooler months of the year, as to allow mining operations without unusual danger to health. Adopting a depth of 4,000 feet as the limit to deep mining there is still a quantity of coal in store in Great Britain sufficient to afford the annual supply of twenty-two millions of tons for a thousand years."--_Hull._[1]

[Footnote 1: More than a quarter of a century ago, Professor Buckland when examined before the House of Commons, limits the supply to 400 years. Mr. Bailey in his Survey of Durham limits the supply to 200 years only. But some proprietors when examined in 1830 extended the period of total exhaustion of the mines to 1,727 years; they assumed that there are 837 square miles of coal strata in this field and that only 105 miles had been worked out.

"There were 2936 collieries in Britain in 1860; from these were raised 83,923,273 tons of coal. The greatly increasing consumption of coal has originated fears as to the possibility of the exhaustion of our mineral fuel. It appears that, while in 1820, only 15,000,000 tons were raised, in 1840, the amount had reached 30,000,000, and in 1860, it was nearly 84,000,000. At the same rate of increase the known coal, within a workable distance from the surface, would last at least 100 years. But the consumption, during the last twenty years of the century, would at the present increasing ratio amount to 1464 million tons a year, a quantity vastly greater than can be used. We need not, therefore, now begin to fear lest our coal-fields should be speedily used up."--_Chambers's Encyclopedia_.]

"Early to bed and early to rise makes a man healthy, wealthy and wise," was a motto adopted by our forefathers when the inducements to promenade London streets by night were not so inviting as now.

"Ranelagh and Vauxhall were places of frivolous amusement resorted to even by the higher classes. From those and other haunts of folly, lumbering coaches or sedan chairs conveyed home the ladies through the dimly lighted or pitch dark streets, and the gentlemen picked their way over the ruggedly-paved thoroughfares, glad of the proffered aid of the link boys who crowded round the gates of such places of public entertainment or resort as were open at night, and who, arrived at the door to which they had escorted some fashionable foot-passenger, quenched the blazing torch in the trumpet-looking ornament which one now and then still sees lingering over the entrance to some house in an antiquated square or court, a characteristic relic of London in the olden time."

Street lighting was not known to the Greeks and Romans, it was therefore necessary for them whenever they went abroad after dark to carry flambeaux. Street lighting was first introduced at Paris about the beginning of the 16th century. An Edict was issued ordering the inhabitants to keep lights burning in their windows after nine at night. In 1558, lamps were exchanged for lanterns, and in 1671 these lanterns were ordered to be lighted from the 20th of October to the beginning of April. This however did not prove a satisfactory arrangement. At length a premium was offered by the Government for a dissertation on the best mode of lighting the streets. The successful competitors were a journeyman glazier, M. M. Bailly, Le Roy and Bourgeois Le Cheteaublanc. To the glazier was awarded a prize of 200 livres, and to the other three jointly 2,000 livres. The result of their suggestions was a general lighting of the streets by oil lamps set upon posts.

In London, lanterns were first used in 1688, and those inhabitants whose houses fronted the streets were ordered to hang out their lanterns and keep them burning from 6 to 11 o'clock at night; the number of lanterns thus used within the boundaries of the City of London was 5,000. Without the City, inclusive of the suburbs, the probability is that the number was 15,000.

In 1874, another act was passed for regulating the lighting of the City still further. Since the lighting of the streets, alleys, courts, etc., of our Metropolis with gas have come many other sanitary and social improvements, and it is not unlikely that under a wise Providence we owe to this invention as much security from the nightly depredations of burglars as much so as from the vigilance of the police.

The existence and inflammability of coal-gas has been known in England for two centuries. In the year 1659, Thomas Shirley correctly attributed the exhalations from the "burning well" at Wigan, in Lancashire, to the coal-beds which lie under that part of the country; and soon after, Dr. Clayton, influenced by Shirley, actually made coal-gas, and detailed the results of his labours in a letter to the Hon. Robert Boyle, who died in 1691. About a century later, 1753, Sir James Lowther communicated to the Royal Society a notice of a spontaneous evolution of gas at a colliery belonging to him at Whitehaven. Bishop Watson made many experiments on coal-gas, which he details in his Chemical Essays. Mr. R. Taylor, on the Coal-fields of China, says, "The Chinese artificially produce illuminating gas from bitumen coal we are certain. But it is a fact that spontaneous jets of gas derived from boring into coal-beds have for centuries been burning, and turned to that and other economical purposes. If the Chinese are not gas manufacturers, they are nevertheless gas consumers and employers on a large scale, and have evidently been so ages before the knowledge of its application was acquired by Europeans." In 1792, Mr. Murdoch, an engineer at Redruth in Cornwall, erected a little gasometer with apparatus which produced gas sufficient to supply his own house and offices, and in 1797, he erected a similar apparatus in Ayrshire. In the following year, he was engaged to put up a gas works at the Manufactory of Bolton and Watts, at Soho, Birmingham,--this was the first application of gas in a large way. Except among a few scientific men, the manufacture of gas excited but little curiosity until the year 1802, when the front of the great Soho Manufactory was brilliantly illuminated with gas on the occasion of the public rejoicings at the Peace. In 1801, M. Le Bon, at Paris, succeeded in lighting up his own house and gardens with gas from wood and coal, and had it in contemplation to light up the City of Paris.

Only within the present century has gas superseded in London the dim oil lamps. About forty years ago, oil lamps and lighted candles were used in our churches and chapels; in some places of worship evening services were dispensed with altogether. A humorous anecdote is related of Dr. Johnson: it is said, one evening, from the window of his house in Bolt Court, he observed the parish lamplighter ascend a ladder to light one of the small oil lamps. He had scarcely descended the ladder half-way when the flame expired. Quickly returning he lifted the cover of the lamp partially and thrusting the end of his torch beneath it, the flame instantly communicated to the wick by the thick vapour which issued from it. "Ah!" exclaimed the Doctor, "one of these days the streets of London will be lighted by smoke."--_Notes and Queries_, No. 127. Certain scientific men were incredulous as to the practicability of lighting up the whole of London with gas, and Sir Humphrey Davey asked if it were intended to take the dome of St. Paul's for a gasometer! In 1820 gas meters were patented by John Malan, in 1830 by Samuel Clegg, in 1838 by Nathan Defries and others. Mr. Daniel Pollock, father of the late Chief Baron, was governor of the first "chartered" gas company in 1812. In 1822 St. James' Park was first lighted with gas. In 1825, its safety had not then been established on the part of the Government, a committee of the most eminent scientific men immediately inspected the Gas Works, and reported that the occasional superintendence of all the Works was necessary. However, since then so rapidly has the invention of gas-lighting progressed, that now in the present year of grace, there is neither City nor town in Great Britain of any note but what is illuminated with gas and has works for its manufacture in close proximity to the houses of its inhabitants. Gas supply of London, receipts for the year 1872, £2,133,600, for 1873, £2,544,000. What is coke? Coke is the residual carbon of pit coal after the volatile matters have been expelled by heat, it has a porous texture and a lustre sometimes approaching the metallic. It is a valuable fuel, producing an intense and steady heat and leaving but little residue after combustion. The residual coke in retorts has a quantity of ash, which, besides its earthy base of silicate, usually contains sulphur and other deleterious matter. The breeze can be used in furnaces and in burning bricks. There is a considerable quantity of pure hydrogen produced by the decomposition of water in cooling coke. Attempts have been made to manufacture gas from other substances besides coal--oil, resin, peat, and even water having in their turn commanded capital for a fair trial of their merits of all these; however, coal has alone stood the test of commercial success, those companies formed for other schemes having either been dissolved or become converts to its superior advantages. No doubt it will be considered Utopian--Mr. Robinson thinks that the electric light might be so modified as to be used in public dwellings! There are exhaustless stores of latent electricity, but the difficulty is to know how to develop and utilise it.

Street gas lit by electricity, by Mr. St. George Lane, Fox's method: trial partially successful, Pall Mall, etc., 13th April, 1878. British Museum Reading Room illuminated by electric light, October, 1879.

Common bituminous coal obtained from the mines of Northumberland, Durham, York, South Wales, and a few other coal districts is the kind from which most of the gas of this country is manufactured. The Cannel or Scotch Parrot coals produce a gas of a much richer quality, which, though expensive, has the advantage of superior illuminating power. Gas companies use to a very great extent coals from the following mines:--Pelaw, Leverson's Wallsend, Pelton, New Pelton, Dean's Primrose, Garesfield, South Peareth, (The London Gas-Light Company use principally Peareth) Urpeth, Washington, Yorkshire, Silkstone, Haswell, West Wear, Wearmouth, Brancepeth, South Brancepeth, and Ravenshaw Pelaw. The resulting products of carbonization of these coals when an exhauster is employed will be found to give about the following average per ton:--

Gas, 9,500 cubic feet; Coke, 13 cwt., or one chaldron; Tar, 10 gallons; Ammoniacal Liquor, 13 gallons. Ammonia, a compound of Nitrogen and Hydrogen, is converted into Sulphate of Ammonia, Sal Ammonia, Carbonate of Ammonia, etc., etc. Tar, which is a Hydro-carbon, after producing Naptha and light oils, becomes useful as Asphalt, or for exterior paint work. Benzole, the base of our newly-discovered dyes, is extracted from the Naptha; which, besides, is either used as a solvent for india-rubber and guttapercha, or yields a brilliant light when burned in a common lamp. Gas, as it issues from the retorts, is chiefly composed of light carburetted and bicarburetted hydrogen or olefiant gas, accompanied by condensable vapours and other gaseous impurities. The condensable vapours are principally hydro-carbon compounds which become deposited in the form of oil, and amongst a variety of deleterious substances may be mentioned as the chief: ammonia, carbonic acid, carbonic oxide, and sulphuretted hydrogen, but the value of coal-gas principally depends on the presence of bicarburetted hydrogen, and the greater proportion of this the higher will be its light-giving properties.

The connection of the London Gas-Light Company's Works with Vauxhall takes us out of the parish of Battersea for a moment into the parish of Lambeth. Vauxhall, the early Spring Garden, was named from its site in the Manor of La Sale Fawkes, Fawkeshall, from its possessor, an obscure Norman adventurer, in the reign of King John.[1] The estate was laid out as a garden about 1661, in squares enclosed with hedges of gooseberries, within which were roses, beans and asparagus. Sir Samuel Morland took a lease of the place in 1665, and added fountains and a sumptuously furnished room for the reception of Charles II. and his court, and a plan dated 1681, shows the gardens planted with trees and laid out in walks and a circle of trees or shrubs. They were frequented by Evelyn and Pepys; and Addison in the _Spectator_, 1712, takes Sir Roger de Coverley there. In 1728, the gardens were leased to Jonathan Tyers, who converted the house into a tavern. The beauty of its rural scenery rendered it so much frequented that the proprietor in the year 1730, introduced vocal music, the price of admission at that time was 1s., but from the competition of others who opened public places of amusement in the neighbourhood, the proprietor introduced a great variety of amusements and raised the price of admission to 2s. During the season of 1807, the price was constantly 2s., the gardens being open only three nights in the week, and each of these nights was what was termed a gala night. Vauxhall Gardens were extensive, they contained a variety of walks illuminated with beautiful transparent paintings. Opposite the west door was a magnificent Gothic orchestra, illuminated with a profusion of lamps of various colours; and on the left was an elegant rotunda, in which the band performed in the cold or rainy weather. At ten o'clock a bell announced the opening of a cascade, with the representation of a water-mill, a mail coach, etc. Fireworks of the most brilliant description were also introduced among the attractions of the place. In numerous recesses, or pavilions, parties were accommodated with suppers and other refreshments and were charged according to a bill of fare. The ham sandwiches were of such an excellent quality and so thinly sliced that they became proverbial. The respective boxes and apartments were adorned with a vast number of paintings, many of which were executed in the best style of their respective theatres. The labours of Hogarth and Hayman were the most conspicuous. On a pedestal, under the arch of a grand portico of the Doric order, was a fine marble statue of Handel, in the character of Orpheus playing on his lyre, done by the celebrated M. Roubiliac. The number of persons who were employed in the gardens during the season is said to have amounted to 400, 96 of whom were musicians and singers, the rest were waiters and servants of various kinds. The celebrated Lowe and Beard were amongst the first singers who were engaged at Vauxhall. Upwards of 15,000 lamps were said to illuminate the gardens at one time,--the effect of the illumination was peculiarly beautiful in a moonlight night. The band of the Duke of York's regiment of Guards dressed in full uniform added to the attractions of these enchanting gardens; by military harmony, as a place of public entertainment, it became the most famous in Europe. The greatest season was in 1823, when 133,279 persons visited the gardens and the receipts were £29,590. The greatest number of persons in one night was on the 2nd of August, 1833, when 20,137 paid for admission. The carriages outside the gardens were so numerous that they extended in lines as far as Westminster Bridge in one direction and to Kennington Common in an opposite direction. The greatest number on the then supposed last night, 5th September, 1839, was 1089 persons. So fascinating did this place of amusement become that it acquired the name of the "fairy land of fancy," answering in conception to those enchanted palaces and gardens described in the "Arabian Nights Entertainment."[2] It was in these gardens gas was manufactured by the London Gas-light Company prior to gas being made at the Company's Works in the neighbourhood of Vauxhall Row.

[Footnote 1: The true derivation is supposed to be from Falk or Faulk de Brent, a famous Norman soldier of fortune to whom King John gave in marriage Margaret de Ripariis or Redvers. To the lady belonged that Manor of Lambeth to which the Mansion called Faulks Hall was annexed.--_London_, by Charles Knight, Vol. I., p. 403.]

[Footnote 2: Vauxhall Gardens were open from 1732 to 1840, they were re-opened in 1841 and finally closed in 1859, when the theatre, orchestra, firework gallery, fountains, statues, etc., were sold, with a few mechanical models, such as Sir Samuel Morland, Master of Mechanics to Charles II. had set up here nearly two centuries previously. The site was then cleared and a church, (St. Peter's) vaulted throughout, was built upon a portion of the grounds, besides a school of arts, etc.--_John Timbs_.]

The London Gas-light Company was Incorporated in the year 1833.[1] The Works at Vauxhall were constructed from designs furnished by Mr. Hutchison, the Engineer. The first bed of retorts set on the Company's premises was heated by a man of the name of William Batt, June, 1834. The old man is still living, he is seventy-five years of age, and has been in the London Gas-light Company's service forty-three years. At that time the Company used a small gasometer erected in Vauxhall Gardens. It was with gas from this vessel that Mr. Green, the celebrated æronaut used to fill or inflate his great balloon. The first place lighted up with the Company's gas was Old Lambeth Market, the site now occupied by the Lambeth Baths. In December, 1858, the London Gas-light Company manufactured gas at their New Works, Nine Elms. The following month, January, 1859, an Act of Parliament came into operation to prevent gas companies from erecting other works for the manufacture of gas within ten miles of London; however, it was not until the year 1863 that the London Gas-light Company permanently removed from Vauxhall to Nine Elms.

[Footnote 1: The London Gas-light Company Established, (Incorporated) 1833; first Works built in High Street, Vauxhall, the lease of which expired in 1865.

December 2, 1872, there was a great strike of the London Gas Stokers, 2,400 out. The inconvenience was met by great exertion, 2-6 Dec. Several were tried and imprisoned.]

The London Gas Works are environed with a brick wall, varying in height from ten to twenty feet, bounded on the North by Nine Elms Lane; on the South by the South-Western Railway; on the East by Everett Street; and on the West by Moat Street and Haine Street. The works within this enclosure cover an area of seventeen acres, and at the field Prince of Wales Road, about three acres more. There are five gates to the Works, but the principal entrance is in Haward Street, by the porter's lodge. At the right-hand-corner is a spacious building, on the basement is the Engineer's office, the Light office, and Messenger's lobby, which has in it a small telegraphic apparatus for communicating intelligence between this and the Chief office. The Grand Entrance is from Nine Elms Lane, opened by two pairs of massive folding doors leading into the hall, facing which is a flight of stone steps with ornamental cast-iron balusters mounted by rails on either side of polished mahogany, communicating with a similar staircase right and left which conducts to the Board room and Draughtsmen's offices. The Board room is a beautiful and commodious apartment, 33 feet by 19. It has never yet been occupied by the Board of Directors, the Board preferring to transact their business at their Chief Office, 26, Southampton Street, Strand, W.C. Secretary, A. J. Dove, Esq.; Engineer, Robert Morton, Esq.; Manager, John Methven, Esq.; Outdoor Superintendent, T. D. Tully, Esq.; Cashier, W. G. Head, Esq., with a staff of Inspectors, Collectors, Clerks, &c.