Dams may

классифицировать в соответствии с его назначением

•

Dams may be classified by their purpose.

классифицировать в соответствии с его назначением

•

Dams may be classified by their purpose.

Bateman, John Frederick La Trobe

SUBJECT AREA: Civil engineering, Public utilities

[br]

b. 30 May 1810 Lower Wyke, near Halifax, Yorkshire, England

d. 10 June 1889 Moor Park, Farnham, Surrey, England

[br]

English civil engineer whose principal works were concerned with reservoirs, water-supply schemes and pipelines.

[br]

Bateman's maternal grandfather was a Moravian missionary, and from the age of 7 he was educated at the Moravian schools at Fairfield and Ockbrook. At the age of 15 he was apprenticed to a "civil engineer, land surveyor and agent" in Oldham. After this apprenticeship, Bateman commenced his own practice in 1833. One of his early schemes and reports was in regard to the flooding of the river Medlock in the Manchester area. He came to the attention of William Fairbairn, the engine builder and millwright of Canal Street, Ancoats, Manchester. Fairbairn used Bateman as his site surveyor and as such he prepared much of the groundwork for the Bann reservoirs in Northern Ireland. Whilst the reports on the proposals were in the name of Fairbairn, Bateman was, in fact, appointed by the company as their engineer for the execution of the works. One scheme of Bateman's which was carried forward was the Kendal Reservoirs. The Act for these was signed in 1845 and was implemented not for the purpose of water supply but for the conservation of water to supply power to the many mills which stood on the river Kent between Kentmere and Morecambe Bay. The Kentmere Head dam is the only one of the five proposed for the scheme to survive, although not all the others were built as they would have retained only small volumes of water.

Perhaps the greatest monument to the work of J.F.La Trobe Bateman is Manchester's water supply; he was consulted about this in 1844, and construction began four years later. He first built reservoirs in the Longdendale valley, which has a very complicated geological stratification. Bateman favoured earth embankment dams and gravity feed rather than pumping; the five reservoirs in the valley that impound the river Etherow were complex, cored earth dams. However, when completed they were greatly at risk from landslips and ground movement. Later dams were inserted by Bateman to prevent water loss should the older dams fail. The scheme was not completed until 1877, by which time Manchester's population had exceeded the capacity of the original scheme; Thirlmere in Cumbria was chosen by Manchester Corporation as the site of the first of the Lake District water-supply schemes. Bateman, as Consulting Engineer, designed the great stone-faced dam at the west end of the lake, the "gothic" straining well in the middle of the east shore of the lake, and the 100-mile (160 km) pipeline to Manchester. The Act for the Thirlmere reservoir was signed in 1879 and, whilst Bateman continued as Consulting Engineer, the work was supervised by G.H. Hill and was completed in 1894.

Bateman was also consulted by the authorities in Glasgow, with the result that he constructed an impressive water-supply scheme derived from Loch Katrine during the years 1856–60. It was claimed that the scheme bore comparison with "the most extensive aqueducts in the world, not excluding those of ancient Rome". Bateman went on to superintend the waterworks of many cities, mainly in the north of England but also in Dublin and Belfast. In 1865 he published a pamphlet, On the Supply of Water to London from the Sources of the River Severn, based on a survey funded from his own pocket; a Royal Commission examined various schemes but favoured Bateman's.

Bateman was also responsible for harbour and dock works, notably on the rivers Clyde and Shannon, and also for a number of important water-supply works on the Continent of Europe and beyond. Dams and the associated reservoirs were the principal work of J.F.La Trobe Bateman; he completed forty-three such schemes during his professional career. He also prepared many studies of water-supply schemes, and appeared as professional witness before the appropriate Parliamentary Committees.

[br]

Principal Honours and Distinctions

FRS 1860. President, Institution of Civil Engineers 1878, 1879.

Bibliography

Among his publications History and Description of the Manchester Waterworks, (1884, London), and The Present State of Our Knowledge on the Supply of Water to Towns, (1855, London: British Association for the Advancement of Science) are notable.

Further Reading

Obituary, 1889, Minutes of the Proceedings of the Institution of Civil Engineers 97:392– 8.

Obituary, 1889, Proceedings of the Royal Society 46:xlii-xlviii. G.M.Binnie, 1981, Early Victorian Water Engineers, London.

P.N.Wilson, 1973, "Kendal reservoirs", Transactions of the Cumberland and Westmorland Antiquarian and Archaeological Society 73.

KM / LRD

central eléctrica

f.

power station, power plant, generating station, powerhouse.

* * *

power station

* * *

(n.) = electric power station, electric power plant, power plant, power plant, powerhouse

Ex. It was a dozen years later that the first central electric power station was built; a decade was to pass before the automobile was invented, and nearly three decades before the first airplane flew.

Ex. In an authority list, the terms, whether descriptors or non-descriptors, may be single words (e.g., Hosiery, Journalism, Lingerie), or phrases of two or three words (e.g., Electric meters, electric power plants, Joy and sorrow).

Ex. This information resource was created to catalogue power plant cooling system impacts on aquatic and terrestrial ecosystems.

Ex. This information resource was created to catalogue power plant cooling system impacts on aquatic and terrestrial ecosystems.

Ex. Instances are given where more than half a village was wiped out or where powerhouses/dams were damaged.

* * *

(n.) = electric power station, electric power plant, power plant, power plant, powerhouse

Ex: It was a dozen years later that the first central electric power station was built; a decade was to pass before the automobile was invented, and nearly three decades before the first airplane flew.

Ex: In an authority list, the terms, whether descriptors or non-descriptors, may be single words (e.g., Hosiery, Journalism, Lingerie), or phrases of two or three words (e.g., Electric meters, electric power plants, Joy and sorrow).

Ex: This information resource was created to catalogue power plant cooling system impacts on aquatic and terrestrial ecosystems.

Ex: This information resource was created to catalogue power plant cooling system impacts on aquatic and terrestrial ecosystems.

Ex: Instances are given where more than half a village was wiped out or where powerhouses/dams were damaged.

* * *

central eléctrica

power station

cuneta

f.

1 ditch.

2 curb, kerb.

3 gutter, street gutter.

* * *

cuneta

► nombre femenino

1 (de carretera) verge

2 (zanja) ditch

* * *

SF

1) [de calle] gutter; [de carretera] ditch

dejar a algn en la cuneta —

Juan deja a Pedro en la cuneta — Juan leaves Pedro standing, Juan leaves Pedro way behind

- quedarse en la cuneta

2) CAm, Méx [de acera] kerb, curb (EEUU)

* * *

femenino

a) ( en carretera) ditch

b) (Chi) ( de calle) curb (AmE), kerb (BrE)

* * *

= ditch, drainage ditch, gutter, culvert.

Ex. The speciments were collected from different types of habitats, such as streams, springs, ditches, dams, swamps, wells and ponds.

Ex. It was found that 73.6% of the wetlands were lost due to the construction of drainage ditches and levees.

Ex. Sampling for immature stages of mosquito was done weekly between May 1999 and January 2000 by straining them from the water in ravines and gutters.

Ex. This publication reviews the literature on the effect of culverts on migrating indigenous and exotic freshwater fish.

----

* dejar a Alguien en la cuneta = leave + Alguien + in the lurch.

* dejar en la cuneta = ditch.

* * *

femenino

a) ( en carretera) ditch

b) (Chi) ( de calle) curb (AmE), kerb (BrE)

* * *

= ditch, drainage ditch, gutter, culvert.

Ex: The speciments were collected from different types of habitats, such as streams, springs, ditches, dams, swamps, wells and ponds.

Ex: It was found that 73.6% of the wetlands were lost due to the construction of drainage ditches and levees.

Ex: Sampling for immature stages of mosquito was done weekly between May 1999 and January 2000 by straining them from the water in ravines and gutters.

Ex: This publication reviews the literature on the effect of culverts on migrating indigenous and exotic freshwater fish.

* dejar a Alguien en la cuneta = leave + Alguien + in the lurch.

* dejar en la cuneta = ditch.

* * *

cuneta

feminine

1 (en una carretera) ditch

2 ( Chi) (de una calle) curb ( AmE), kerb ( BrE)

* * *

cuneta sustantivo femenino

a) ( en carretera) ditch

b) (Chi) ( de calle) curb (AmE), kerb (BrE)

cuneta sustantivo femenino gutter: me tiré a la cuneta para esquivar el coche, I jumped onto the curb to avoid the car
' cuneta' also found in these entries:
Spanish:
arroyo
- banquina
English:
ditch
- gutter
- curb

* * *

cuneta nf

1. [de una carretera] ditch

2. [de una calle] gutter

* * *

cuneta

f ditch;

dejar a alguien en la cuneta fig fam leave s.o. way behind

* * *

cuneta nf

: ditch (in a road), gutter

* * *

cuneta n ditch [pl. ditches]

к ... можно добавить

•

To these measures may be added the construction of many small dams.

к ... можно добавить

•

To these measures may be added the construction of many small dams.

Robinson, George J.

SUBJECT AREA: Textiles

[br]

b. 1712 Scotland

d. 1798 England

[br]

Scottish manufacturer who installed the first Boulton \& Watt rotative steam-engine in a textile mill.

[br]

George Robinson is said to have been a Scots migrant who settled at Burwell, near Nottingham, in 1737, but there is no record of his occupation until 1771, when he was noticed as a bleacher. By 1783 he and his son were describing themselves as "merchants and thread manufacturers" as well as bleachers. For their thread, they were using the system of spinning on the waterframe, but it is not known whether they held a licence from Arkwright. Between 1776 and 1791, the firm G.J. \& J.Robinson built a series of six cotton mills with a complex of dams and aqueducts to supply them in the relatively flat land of the Leen valley, near Papplewick, to the north of Nottingham. By careful conservation they were able to obtain considerable power from a very small stream. Castle mill was not only the highest one owned by the Robinsons, but it was also the highest mill on the stream and was fed from a reservoir. The Robinsons might therefore have expected to have enjoyed uninterrupted use of the water, but above them lived Lord Byron in his estate of Newstead Priory. The fifth Lord Byron loved making ornamental ponds on his property so that he could have mock naval battles with his servants, and this tampered with the water supplies so much that the Robinsons found they were unable to work their mills.

In 1785 they decided to order a rotative steam engine from the firm of Boulton \& Watt. It was erected by John Rennie; however, misfortune seemed to dog this engine, for parts went astray to Manchester and when the engine was finally running at the end of February 1786 it was found to be out of alignment so may not have been very successful. At about the same time, the lawsuit against Lord Byron was found in favour of the Robinsons, but the engine continued in use for at least twelve years and was the first of the type which was to power virtually all steamdriven mills until the 1850s to be installed in a textile mill. It was a low-pressure double-acting condensing beam engine, with a vertical cylinder, parallel motion connecting the piston toone end of a rocking beam, and a connecting rod at the other end of the beam turning the flywheel. In this case Watt's sun and planet motion was used in place of a crank.

[br]

Further Reading

R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (for an account of the installation of this engine).

D.M.Smith, 1965, Industrial Archaeology of the East Midlands, Newton Abbot (describes the problems which the Robinsons had with the water supplies to power their mills).

S.D.Chapman, 1967, The Early Factory Masters, Newton Abbot (provides details of the business activities of the Robinsons).

J.D.Marshall, 1959, "Early application of steam power: the cotton mills of the Upper Leen", Transactions of the Thoroton Society of Nottinghamshire 60 (mentions the introduction of this steam-engine).

RLH

энергия прилива

1. Gezeitenenergie

 

энергия прилива
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

tidal power
Mechanical power, which may be converted to electrical power, generated by the rise and fall of ocean tides. The possibilities of utilizing tidal power have been studied for many generations, but the only feasible schemes devised so far are based on the use of one or more tidal basins, separated from the sea by dams (known as barrages), and of hydraulic turbines through which water passes on its way between the basins and the sea. (Source: ALL)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• tidal power

DE

• Gezeitenenergie

FR

• énergie marémotrice

énergie marémotrice

1. энергия прилива

 

энергия прилива
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

tidal power
Mechanical power, which may be converted to electrical power, generated by the rise and fall of ocean tides. The possibilities of utilizing tidal power have been studied for many generations, but the only feasible schemes devised so far are based on the use of one or more tidal basins, separated from the sea by dams (known as barrages), and of hydraulic turbines through which water passes on its way between the basins and the sea. (Source: ALL)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• tidal power

DE

• Gezeitenenergie

FR

• énergie marémotrice

Gezeitenenergie

1. энергия прилива

 

энергия прилива
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

tidal power
Mechanical power, which may be converted to electrical power, generated by the rise and fall of ocean tides. The possibilities of utilizing tidal power have been studied for many generations, but the only feasible schemes devised so far are based on the use of one or more tidal basins, separated from the sea by dams (known as barrages), and of hydraulic turbines through which water passes on its way between the basins and the sea. (Source: ALL)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• tidal power

DE

• Gezeitenenergie

FR

• énergie marémotrice

энергия прилива

1. tidal power

 

энергия прилива
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

tidal power
Mechanical power, which may be converted to electrical power, generated by the rise and fall of ocean tides. The possibilities of utilizing tidal power have been studied for many generations, but the only feasible schemes devised so far are based on the use of one or more tidal basins, separated from the sea by dams (known as barrages), and of hydraulic turbines through which water passes on its way between the basins and the sea. (Source: ALL)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• tidal power

DE

• Gezeitenenergie

FR

• énergie marémotrice

энергия прилива

1. énergie marémotrice

 

энергия прилива
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

tidal power
Mechanical power, which may be converted to electrical power, generated by the rise and fall of ocean tides. The possibilities of utilizing tidal power have been studied for many generations, but the only feasible schemes devised so far are based on the use of one or more tidal basins, separated from the sea by dams (known as barrages), and of hydraulic turbines through which water passes on its way between the basins and the sea. (Source: ALL)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• tidal power

DE

• Gezeitenenergie

FR

• énergie marémotrice

tidal power

1. энергия приливов и отливов
2. энергия прилива

 

энергия прилива
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

tidal power
Mechanical power, which may be converted to electrical power, generated by the rise and fall of ocean tides. The possibilities of utilizing tidal power have been studied for many generations, but the only feasible schemes devised so far are based on the use of one or more tidal basins, separated from the sea by dams (known as barrages), and of hydraulic turbines through which water passes on its way between the basins and the sea. (Source: ALL)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• tidal power

DE

• Gezeitenenergie

FR

• énergie marémotrice

 

энергия приливов и отливов
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]

Тематики

• энергетика в целом

EN

• tidal power