Lehigh Coal & Navigation Company was a mining and transportation company headquartered in Mauch Chunk, now known as Jim Thorpe, Pennsylvania . The company operated from 1818 until its dissolution in 1964 and played an early and influential role in the American Industrial Revolution .
127-593: The Schuylkill Canal , or Schuylkill Navigation , was a system of interconnected canals and slack-water pools along the Schuylkill River in the U.S. state of Pennsylvania , built as a commercial waterway in the early 19th-century. Chartered in 1815, the navigation opened in 1825, to provide transportation and water power. At the time, the Schuylkill River was the least expensive and most efficient method of transporting bulk cargo, and cities on
254-547: A caisson of water in which boats float while being moved between two levels; and inclined planes where a caisson is hauled up a steep railway. To cross a stream, road or valley (where the delay caused by a flight of locks at either side would be unacceptable) the valley can be spanned by a navigable aqueduct – a famous example in Wales is the Pontcysyllte Aqueduct (now a UNESCO World Heritage Site ) across
381-510: A drainage divide atop a ridge , generally requiring an external water source above the highest elevation . The best-known example of such a canal is the Panama Canal . Many canals have been built at elevations, above valleys and other waterways. Canals with sources of water at a higher level can deliver water to a destination such as a city where water is needed. The Roman Empire 's aqueducts were such water supply canals. The term
508-415: A "cistern", or depressed area just downstream from the fall, to "cushion" the water by providing a deep pool for its kinetic energy to be diffused in. Vertical falls work for drops of up to 1.5 m in height, and for discharge of up to 15 cubic meters per second. The transport capacity of pack animals and carts is limited. A mule can carry an eighth-ton [250 pounds (113 kg)] maximum load over
635-485: A boatload on the rough waters of the unimproved Lehigh River, contributing to lost operating profits for the company and sometimes outright losses. The owners later sold some coal to Josiah White and Erskine Hazard, who operated a wire mill foundry at the Schuylkill River falls near Philadelphia . White and Hazard were delighted by the quality of the fuel, and subsequently bought the LCMC's final two barges to survive
762-496: A canal has a series of dams and locks that create reservoirs of low speed current flow. These reservoirs are referred to as slack water levels , often just called levels . A canal can be called a navigation canal when it parallels a natural river and shares part of the latter's discharges and drainage basin , and leverages its resources by building dams and locks to increase and lengthen its stretches of slack water levels while staying in its valley . A canal can cut across
889-673: A coal road, whilst the Union Canal was engineered for cross-state passenger and cargoes; but it also competed with and then became secondary to the east–west divisions of the Pennsylvania Canal System on the Main Line of Public Works between Philadelphia, Harrisburg, and Pittsburgh. The Schuylkill Canal also featured the first transportation tunnel in America . By transporting bulk cargoes and provide water power,
1016-413: A combination of the three, depending on available water and available path: Smaller transportation canals can carry barges or narrowboats , while ship canals allow seagoing ships to travel to an inland port (e.g., Manchester Ship Canal ), or from one sea or ocean to another (e.g., Caledonian Canal , Panama Canal ). At their simplest, canals consist of a trench filled with water. Depending on
1143-715: A drained section of the canal prism. The Aqueduct is on the National Register of Historic Places. The head of the Oakes Reach is at the Black Rock Dam (Dam #26), near Mont Clare. The canal passes through the dam structure at Lock #60. The volunteer Schuylkill Canal Association has restored Lock 60 to operating condition. The nearby locktender's house has also been restored. The Reach runs under Pennsylvania Route 29 in Mont Clare, directly across
1270-446: A fairly new design, invented for the purpose by White, were used so water could be retained until required for use. When the dam became full and the water ran over it long enough for the river below to regain its ordinary depth, the sluice ates were let down, while the boats, which were lying in the pool above, passed down with the artificial flood. In this manner the difficulty was overcome. Crews were sent up Mount Pisgah to improve
1397-423: A half in width, laid upon wooden ties, which were kept in place by means of stone ballast. The loaded cars or wagons, as they were then termed, each having a capacity of approximately one and a half tons, were connected in trains of from six to fourteen, being attended by men who regulated their speed. Turn-outs were provided at intervals and the empty cars were drawn back to the mines by mules. They descended with
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#17327810686311524-549: A journey measured in days and weeks, though much more for shorter distances and periods with appropriate rest. Besides, carts need roads. Transport over water is much more efficient and cost-effective for large cargoes. The oldest known canals were irrigation canals, built in Mesopotamia c. 4000 BC , in what is now Iraq . The Indus Valley civilization of ancient India ( c. 3000 BC ) had sophisticated irrigation and storage systems developed, including
1651-561: A marginal level of navigability on the Lehigh over four years ahead of their targeted 1824 deadline. Coal was transported by mule track from Summit Hill to a loading chute at the huge slack water pool at Mauch Chunk . Riding this success, the two companies were merged into the Lehigh Coal & Navigation Company, which resolved to apply American Canal era technology, including canals, locks, and rails to bring coal to their foundries and
1778-642: A meeting was held to announce the survey work for the extension of the Schuylkill River Trail along the towpath of the watered portion of the Oakes Reach. It was expected that the towpath restoration itself would commence around March 2009. Restoration of the canal towpath between Longford Road and Mont Clare is now complete. However, this one-mile-long segment of Schuylkill River Trail is a narrow crushed-stone path, designed for pedestrians and slower bicycles. Cyclists who prefer higher speeds are encouraged to ride on parallel Walnut Street, rather than
1905-581: A rather low gradient for its time. The canal is still in use after renovation. In the Middle Ages , water transport was several times cheaper and faster than transport overland. Overland transport by animal drawn conveyances was used around settled areas, but unimproved roads required pack animal trains, usually of mules to carry any degree of mass, and while a mule could carry an eighth ton, it also needed teamsters to tend it and one man could only tend perhaps five mules, meaning overland bulk transport
2032-562: A reliable source of anthracite. To move the coal to market, they entered political negotiations to acquire rights to tame the turbulent and rapids-ridden Lehigh River for navigation. By 1817–18, they had organized the separate Lehigh Navigation Company and had written stock flyers announcing plans to deliver barge loads of coal regularly to Philadelphia by 1824. The LCMC had trouble delivering Anthracite to Philadelphia at costs cheaper than imported Bituminous Coal from Britain or Virginia. Their last expedition had been sent out in 1813 during
2159-466: A reliable source of fuel for their mills. Early on in the board meetings of the new corporation they'd quarreled with others over the funding, timings, and tasks necessary and when they could not prevail to speed the project, immediately explored the option of making a navigation on the Lehigh River and acquiring the mining rights of the failing Lehigh Coal Mine Company and other investors to fund
2286-503: A small minority felt that these men would not ruin themselves. Accordingly, the act of grant reserved to the commonwealth the right to compel the adoption of a complete system of slack-water navigation from Easton to Stoddartsville if the service given by the company did not meet "the wants of the country." In 1817, they leased the Lehigh Coal Mine's properties and took over operations, incorporating it on October 21, 1818, as
2413-683: A steady supply of fuel for foundries and mills on the falls of the Schuylkill River . Its role in accelerating regional industrial development by taking on civil engineering challenges initially thought impossible and creating important transport and mining infrastructure, proved influential in spearheading the Industrial Revolution in the United States . The company also established the Lehigh Canal , whose construction began in 1818. The Lehigh Canal became usable in 1820,
2540-459: A uniform altitude. Other, generally later, canals took more direct routes requiring the use of various methods to deal with the change in level. Canals have various features to tackle the problem of water supply. In cases, like the Suez Canal, the canal is open to the sea. Where the canal is not at sea level, a number of approaches have been adopted. Taking water from existing rivers or springs
2667-422: Is a channel that cuts across a drainage divide , making a navigable channel connecting two different drainage basins . Both navigations and canals use engineered structures to improve navigation: Since they cut across drainage divides, canals are more difficult to construct and often need additional improvements, like viaducts and aqueducts to bridge waters over streams and roads, and ways to keep water in
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#17327810686312794-416: Is plated off, and the forereach area above has silted in. This stretch of canal forms the northern side of Venice Island , which is facing development pressures. At the downstream end of this reach, the canal runs through Manayunk and returns to the river via Locks 69 & 70. All three lock structures still exist. The Schuylkill River Trail (SRT) now overlays portions of the canal route. In Manayunk,
2921-701: Is presumed, introduced in Italy by Bertola da Novate in the 16th century. This allowed wider gates and also removed the height restriction of guillotine locks . To break out of the limitations caused by river valleys, the first summit level canals were developed with the Grand Canal of China in 581–617 AD whilst in Europe the first, also using single locks, was the Stecknitz Canal in Germany in 1398. In
3048-599: Is rarely less than 30 metres (98 ft) wide. In the 5th century BC, Achaemenid king Xerxes I of Persia ordered the construction of the Xerxes Canal through the base of Mount Athos peninsula, Chalkidiki , northern Greece. It was constructed as part of his preparations for the Second Persian invasion of Greece , a part of the Greco-Persian Wars . It is one of the few monuments left by
3175-418: Is steeper than the desired canal gradient. They are constructed so the falling water's kinetic energy is dissipated in order to prevent it from scouring the bed and sides of the canal. A canal fall is constructed by cut and fill . It may be combined with a regulator, bridge, or other structure to save costs. There are various types of canal falls, based on their shape. One type is the ogee fall, where
3302-452: Is the pound lock , which consists of a chamber within which the water level can be raised or lowered connecting either two pieces of canal at a different level or the canal with a river or the sea. When there is a hill to be climbed, flights of many locks in short succession may be used. Prior to the development of the pound lock in 984 AD in China by Chhaio Wei-Yo and later in Europe in
3429-658: The Elbe , Oder and Weser being linked by canals. In post-Roman Britain, the first early modern period canal built appears to have been the Exeter Canal , which was surveyed in 1563, and open in 1566. The oldest canal in the European settlements of North America, technically a mill race built for industrial purposes, is Mother Brook between the Boston, Massachusetts neighbourhoods of Dedham and Hyde Park connecting
3556-543: The Naviglio Grande built between 1127 and 1257 to connect Milan with the river Ticino . The Naviglio Grande is the most important of the lombard " navigli " and the oldest functioning canal in Europe. Later, canals were built in the Netherlands and Flanders to drain the polders and assist transportation of goods and people. Canal building was revived in this age because of commercial expansion from
3683-545: The Phoenix metropolitan area was the most complex in ancient North America. A portion of the ancient canals has been renovated for the Salt River Project and now helps to supply the city's water. The Sinhalese constructed the 87 km (54 mi) Yodha Ela in 459 A.D. as a part of their extensive irrigation network which functioned in a way of a moving reservoir due to its single banking aspect to manage
3810-528: The River Brue at Northover with Glastonbury Abbey , a distance of about 1.75 kilometres (1,900 yd). Its initial purpose is believed to be the transport of building stone for the abbey, but later it was used for delivering produce, including grain, wine and fish, from the abbey's outlying properties. It remained in use until at least the 14th century, but possibly as late as the mid-16th century. More lasting and of more economic impact were canals like
3937-616: The Schuylkill Canal project, which began in 1814, and was finally funded and finished with the company's support. White and Hazard had backed the Schuylkill project since their mills were on the River, but became disgusted with the timid investment and management attitudes of its board, so they explored property and feasibility examinations elsewhere in 1814–1815 and petitioned to build the canal that next year. Upon their return,
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4064-614: The Songhai Empire of West Africa, several canals were constructed under Sunni Ali and Askia Muhammad I between Kabara and Timbuktu in the 15th century. These were used primarily for irrigation and transport. Sunni Ali also attempted to construct a canal from the Niger River to Walata to facilitate conquest of the city but his progress was halted when he went to war with the Mossi Kingdoms . Around 1500–1800
4191-453: The U.S. East Coast were experiencing an energy crisis. It fostered the mining of anthracite coal as the major source of industry between Pottsville and eastern markets. Along the tow-paths, mules pulled barges of coal from Port Carbon through the water gaps to Pottsville; locally to the port and markets of Philadelphia ; and some then by ship or through additional New Jersey waterways, to New York City markets. The Schuylkill Canal
4318-686: The mining of anthracite coal in the United States, acquiring virtually the entire eastern lobe of the Southern Pennsylvania Coal Region , and brought in Welsh experts to bootstrap Iron production using blast furnace technology in the Lehigh Valley , building the first six such furnaces and puddling furnaces to create steel, which the company then provided to its own wire rope (steel cable) manufactury,
4445-556: The reservoirs built at Girnar in 3000 BC. This is the first time that such planned civil project had taken place in the ancient world. In Egypt , canals date back at least to the time of Pepi I Meryre (reigned 2332–2283 BC), who ordered a canal built to bypass the cataract on the Nile near Aswan . In ancient China , large canals for river transport were established as far back as the Spring and Autumn period (8th–5th centuries BC),
4572-404: The stratum the canal passes through, it may be necessary to line the cut with some form of watertight material such as clay or concrete. When this is done with clay, it is known as puddling . Canals need to be level, and while small irregularities in the lie of the land can be dealt with through cuttings and embankments, for larger deviations other approaches have been adopted. The most common
4699-471: The 12th century. River navigations were improved progressively by the use of single, or flash locks . Taking boats through these used large amounts of water leading to conflicts with watermill owners and to correct this, the pound or chamber lock first appeared, in the 10th century in China and in Europe in 1373 in Vreeswijk , Netherlands. Another important development was the mitre gate , which was, it
4826-472: The 15th century, either flash locks consisting of a single gate were used or ramps, sometimes equipped with rollers, were used to change the level. Flash locks were only practical where there was plenty of water available. Locks use a lot of water, so builders have adopted other approaches for situations where little water is available. These include boat lifts , such as the Falkirk Wheel , which use
4953-845: The 1820s. The Delaware and Hudson Canal companies, the Delaware and Raritan Canal , the Morris Canal , the Chesapeake & Delaware Canal and various others followed, triggering the North American Canal Age and helping fuel the Industrial Revolution in America. ... while there was a total lack of highways or navigable streams leading to the region. Small quantities of coal were mined, but people were slow to appreciate its value, and it required vigorous exertions to induce them to attempt to use it. Its very appearance
5080-646: The LCN & Co. from rebuilding. In 1827, the Company in one massive well organized effort, completely built the 9.2 miles (14.8 km) of America's second railroad using the road bed of the wagon road built in 1818–19 in just a few months — a gravity railroad named the Mauch Chunk and Summit Hill Railroad using wooden sleepers on a gravel substrate (as did most more modern railways) — to bring coal from mines to river more efficiently. The work went quickly since
5207-551: The Legislature put it, was granted by an act passed March 20, 1818. According to a history of the navigations, authored in 1884: The improvement of the Lehigh was begun at the mouth of the Nesquehoning Creek , during the summer of the year 1818, under the personal supervision of Josiah White. The plan adopted was to contract the channel of the river in the form of a funnel, wherever it was found necessary to raise
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5334-560: The Lehigh Coal & Navigation Company, which leased their own operational rights from their predecessor, the Lehigh Coal Company. In 1792, the Lehigh Coal Mine Company (LCMC) was founded. It was incorporated the following year, in 1793, and the company also acquired 10,000 acres (4,000 ha) in and around Panther Creek Valley and Pisgah Mountain , and the aim of hauling anthracite coal from
5461-457: The Lehigh Coal Company constructed the first roadway in America built on the principle, which was later adopted by the railway, of dividing the total distance by the total descent in order to determine the grade. The Lehigh Navigation Company, then suffering from an unprecedented dearth of water, adopted White's invention of sluice gates connecting with pools that could be filled with reserve water to be drawn upon as needed for navigation. By 1819,
5588-620: The Lehigh Coal Company, which was leased, and the Lehigh Navigation Company. The transactions represented the first merger of interlocking companies in the nation's history. Five years later, the company built the Mauch Chunk and Summit Hill Railroad , the first coal railroad and just the second railroad company in the country to be constructed after the Granite Railroad in Quincy, Massachusetts . The company
5715-652: The Lehigh Coal Company. They petitioned the legislature and proposed acquiring rights to make improvements to the Lehigh River for which there had been a string of supportive legislation going back decades. In 1820, White and Hazard bought out their partner Hauto and dissolved the Lehigh Coal Company on April 21, 1820. Under the conditions of the lease, it was stipulated that, after a given time for preparation, they should deliver for their own benefit at least forty thousand bushels of coal annually in Philadelphia and
5842-526: The Lehigh Navigation Company, and began seeking legislative approval for improving the Lehigh River 's navigation. The desired opportunity "to ruin themselves," as one member of the Legislature put it, was granted by an act passed March 20, 1818. The various powers applied for, and granted, embraced the whole range of tried and untried methods for securing "a navigation downward once in three days for boats loaded with one hundred barrels, or ten tons." The State kept its weather eye open in this matter, however, for
5969-438: The Lehigh River towns Jim Thorpe , formerly Mauch Chunk, to the towns west, and Nesquehoning to its north. Both towns are built into the flanks, the traverses , of the mountain , with flats along the river banks. (A few decades later, railroads would follow the canals.) Within the next two years, White and Hazard constructed a descending navigation system that used their unique "bear trap" or hydrostatic locks , which allowed
6096-485: The Lehigh's locks concept. Its delivery in 1820 of over 365 tons of Anthracite to Philadelphia resulted in a temporary market glut. These and regularly increasing tonnages shipped down to Philadelphia's docks over the next 2–3 years attracted investors and speculators from all along the Eastern Seaboard to capitalize and fund similar companies. This began a deluge of private canal and canal resumption projects in
6223-528: The Longford Road-to-Mont Clare section of tow-path. Download coordinates as: Canal Canals or artificial waterways are waterways or engineered channels built for drainage management (e.g. flood control and irrigation ) or for conveyancing water transport vehicles (e.g. water taxi ). They carry free, calm surface flow under atmospheric pressure , and can be thought of as artificial rivers . In most cases,
6350-590: The Persian Empire in Europe . Greek engineers were also among the first to use canal locks , by which they regulated the water flow in the Ancient Suez Canal as early as the 3rd century BC. There was little experience moving bulk loads by carts, while a pack-horse would [i.e. 'could'] carry only an eighth of a ton. On a soft road a horse might be able to draw 5/8ths of a ton. But if
6477-816: The Schuylkill Canal began to decline in use for general freight and the wealthier westward bound passengers had long since used the Philadelphia and Columbia Railroad to reach the Pennsylvania Canal System to cross the Alleghenies . In 1857, the Pennsylvania Railroad had connected Pittsburgh and Philadelphia , would eventually add New York City and Chicago , and was instrumental in the declining fortunes of Pennsylvania's far flung network of canals . Railroads could reach mine heads and coal breakers where no stream existed to support
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#17327810686316604-608: The Schuylkill Navigation Company. The Oakes Reach canal, locks, locktenders' houses, Black Rock Dam, and the slackwater pool extending up to the Pennsylvania Route 113 bridge form the "Schuylkill Navigation Canal, Oakes Reach Section" historic district . On December 30, 2017 what is thought to be the non-mechanized, human powered speed record was set on the Oakes Reach by Todd Martin, originally of Mont Clare. The record of 19 minutes 38 seconds,
6731-683: The Schuylkill Navigation transformed the towns of Reading , Norristown , and Pottsville into early manufacturing centers. By using the Delaware River and the Delaware and Raritan and Morris Canals , manufactured products and anthracite from the Schuylkill Valley could also reach New York Harbor . The Schuylkill Navigation system quickly assumed a monopoly position in the transportation of anthracite coal from
6858-683: The Schuylkill Navigation until most of the canals were filled by the Commonwealth of Pennsylvania during 1947–1979 in efforts to remove coal silt from the Schuylkill River. The Chester County Canal , also known as the Phoenixville Branch Canal , was an addition to the Navigation built by the Schuylkill Navigation Company in 1828 to provide water power to a new nail works in Phoenixville . The new canal connected
6985-633: The Schuylkill Navigation used 92 lift locks to overcome the difference of 588 feet (179 m) in elevation between its terminal points. This was similar in degree to the gradients of the Lehigh Canal but twice the height drop in twice the distance, both much steeper than the Erie Canals leisurely descents. In point of fact, canals in the United States rarely kept their original configurations and improvements continued over their life; if for no other reason, periodically ice damage and freshets occur pointing out shortcomings, leading to improvements. By
7112-413: The Schuylkill Navigation. The Schuylkill Navigation was also hindered by coal silt deposits that made its upper sections almost unusable. By 1891 the portion of Navigation above Port Clinton was abandoned. By 1904 the anthracite traffic had almost completely ceased, and after 1913 only an occasional cargo passed between Port Clinton and Philadelphia. Excursion vessels and pleasure boating remained active on
7239-803: The Schuylkill region [coal mining] was opened, while it was not until 1829 that the coal trade of the Wyoming region [i.e., the Wyoming Valley ] began. When the engineering challenges and finances allowed, the Schuylkill Canal began operations in 1825. The initial configuration completed in 1827, was waterway of 108 miles (174 km) was linking Philadelphia to Port Carbon in the Southern Anthracite Coal Fields near Pottsville. Combining 62 miles (100 km) of separate canals, often referred to as "reaches", with 46 miles (74 km) of slack water pools (so called "levels" ),
7366-785: The Southwest by 1300 CE. Archaeologists working at a major archaeological dig in the 1990s in the Tucson Basin, along the Santa Cruz River, identified a culture and people that may have been the ancestors of the Hohokam. This prehistoric group occupied southern Arizona as early as 2000 BCE, and in the Early Agricultural period grew corn, lived year-round in sedentary villages, and developed sophisticated irrigation canals. The large-scale Hohokam irrigation network in
7493-430: The Trail was constructed across the canal from the towpath. (The Reading railroad built a freight spur on the canal towpath.) In 2008 the extension of the Schuylkill River Trail from the Perkiomen Creek to Longford Road in Oaks opened. This length of the Trail makes use of the general course of the filled portion of the Oakes Reach and originally used the old canal aqueduct to cross Crossman's Run. On 14 February 2008,
7620-460: The United States. Using anthracite as fuel in its production, iron for the first time became plentiful and inexpensive. For a period of thirty years, three decades that shaped the future of the valley, anthracite fueled furnaces throughout the Lehigh Valley produced greater quantities of iron than any other part of the nation. The June 6, 1862 flood proved to show a fatal flaw in White's grand dream. The Upper Grand contributed to its own demise in that
7747-412: The adoption of a complete system of slack-water navigation from Easton to Stoddartsville if the company did not succeed satisfactorily. Capital was subscribed by a patriotic public on condition that a committee of stockholders go over the Lehigh River ground and pass judgment on the probable success of the effort. The report was favorable so far as the improvement of the Lehigh River was concerned. But
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#17327810686317874-439: The canal and its locks." While many of the dams still stand, few watered stretches of the canal remain. Some 2.5 miles (4.0 km) of the original 3.5 miles (5.6 km) long Oakes Reach between Oaks and Mont Clare and the 1 mile (1.6 km) reach in Manayunk . Ruins and remnants of the canals structure are still visible along its length. Many of the locks chambers still exist but are buried to varying degrees. Some of
8001-436: The canal pressure with the influx of water. It was also designed as an elongated reservoir passing through traps creating 66 mini catchments as it flows from Kala Wewa to Thissa Wawa . The canal was not designed for the quick conveying of water from Kala Wewa to Thissa Wawa but to create a mass of water between the two reservoirs, which would in turn provided for agriculture and the use of humans and animals. They also achieved
8128-418: The canal to form a dam. They are generally placed in pre-existing grooves in the canal bank. On more modern canals, "guard locks" or gates were sometimes placed to allow a section of the canal to be quickly closed off, either for maintenance, or to prevent a major loss of water due to a canal breach. A canal fall , or canal drop, is a vertical drop in the canal bed. These are built when the natural ground slope
8255-462: The canal. Where large amounts of goods are loaded or unloaded such as at the end of a canal, a canal basin may be built. This would normally be a section of water wider than the general canal. In some cases, the canal basins contain wharfs and cranes to assist with movement of goods. When a section of the canal needs to be sealed off so it can be drained for maintenance stop planks are frequently used. These consist of planks of wood placed across
8382-409: The channel. There are two broad types of canal: Historically, canals were of immense importance to commerce and the development, growth and vitality of a civilization. In 1855 the Lehigh Canal carried over 1.2 million tons of anthracite coal; by the 1930s the company which built and operated it for over a century ceased operation. The few canals still in operation in our modern age are a fraction of
8509-405: The coal mines of Schuylkill County to Philadelphia , and by 1841, was annually transporting over 737,517 tons of cargo. In 1841, the Philadelphia and Reading Railroad opened, and within four years, was hauling three times as much anthracite to Philadelphia each year as the Schuylkill Navigation. In response, the Schuylkill Navigation Company enlarged its canals; by 1847, they could accommodate
8636-434: The company from 1822 until 1865, White and Hazard were constantly seeking innovative solutions to increase business and revenues. The vertical integration many economists credit them with inventing would appeal to them as a very natural way to control costs, hence maximize profitability. The two, and the various members of the corporate board often heard of ideas that separately( ? ) or together needed financial investment which
8763-429: The company was combined with the Lehigh Coal Company with the ouster of George Hauto, but was not rechartered officially until 1822. By late 1820, four years ahead of their prospectus 's targeted schedule, the unfinished but much improved Lehigh Valley watercourse began reliably transporting large amounts of coal to White's mills and Philadelphia. The nearly 370 tons of coal brought to market that year not only salved
8890-413: The company would often join as investors, and often end up providing a later critical boost of finishing financing, investing in such ventures directly, or buying out at a later time as subsidiaries as things developed a proof of concept, track record, better promise, or dependency on another business. From that moment on, anthracite and the canals were of pivotal importance in the industrial development of
9017-437: The company's two founders took over Lehigh Coal Mining Company's mines and mining rights in a 20-year lease. built the Lehigh and Susquehanna Railroad and had its hands in many other northeastern Pennsylvania shortline railroads, spurs, and subsidiaries; created the Ashley Planes and made or supported means to other novel solutions of transport problems; and created transport corridors still important today. It also pioneered
9144-451: The competition. Under the railroad's control, the Schuylkill Navigation continued to decline as a general freight carrier , but operated primarily as a coal road, like the Lehigh and Delaware Canals into the 1930s, since for heating and especially, steam power , nearly everyone needed anthracite. The traffic on the canal was expedited by corporate maneuvers when its New York City and New Jersey markets connecting Delaware and Raritan Canal
9271-443: The costly digging of a new ditch. Coal shifted away from canals to the more flexible means of bulk goods transportation. Where the established canals supplied, their markets mostly remained relatively stable and they generally remained competitive with only a gradual erosion of market share as decades passed. Eventually, oil heat and their perennial problems of delivering in winter's cold diminished their role. The self-examination during
9398-555: The countries first it set up in Mauch Chunk. Completing the vertical integration, the wire ropes were then marketed to other mining operations, cable railways, and other industries needing high tensile reliability in managing weighty loads. In 1822, Lehigh Coal Company bought out partner George Hauto and formed the Lehigh Coal & Navigation Company (LC&N) by combining the Lehigh Coal Mining Company,
9525-482: The dams and locks necessary to allow the coal barges to travel on the river meant that huge pools of water sat at the ready. Once the heavy June rains began, and dams began to be breached, devastating tidal waves of flood water burst dam after dam causing a great flood and loss of life. John J. Leisenring Jr., then Superintendent of the LCN & Co. estimated that 200 people lost their lives from White Haven down to Lehighton. The state legislature stepped in and prohibited
9652-472: The depth of water between Mauch Chunk and Easton was obtained. The two companies were immediately amalgamated under the title of the Lehigh Coal and Navigation Company. By 1823, the two companies delivered over two thousand tons of coal to market. Having displayed great technological skills by creating the world's first iron wire suspension bridge, which spanned the Schuylkill River at their wire works, White and Hazard schemed with other industrialists to secure
9779-466: The development and connection of four other regional canals. Lehigh Coal & Navigation Company's success, along with White's reputation for advancing the state of mining and civil engineering, jump started the Canal Age in the U.S. It also spurred historically significant investments in raw materials and bulk transportation infrastructure projects. The company also supported funding efforts behind
9906-399: The drop follows an s-shaped curve to create a smooth transition and reduce turbulence . However, this smooth transition does not dissipate the water's kinetic energy, which leads to heavy scouring. As a result, the canal needs to be reinforced with concrete or masonry to protect it from eroding. Another type of canal fall is the vertical fall, which is "simple and economical". These feature
10033-479: The early 1820s, the coal coming down the Lehigh and Schuylkill canals having alleviated the high costs of heating, overcoming in just a few years the long suffered shortages of fuels in Eastern cities and towns The Auburn Tunnel , a 450-foot (137 m) bore through a hill near Auburn , was completed in 1821, but by 1857, due to increased traffic, canal capacity (widening) modifications turned it into an open-cut . Like
10160-489: The early years of the Great Depression would end up closing most, as it did the Schuylkill Navigation Company. In 1869 the Schuylkill Navigation was damaged by a flood, hindering operations for some time whilst repairs could be made. In 1870, its board of directors forced by stockholders, the Schuylkill Navigation Company leased its waterway to the Philadelphia and Reading Railroad for 999 years, surrendering to
10287-526: The first vertically integrated company in the United States. In 1792, a hunter named Philip Ginter discovered anthracite coal on Pisgah Mountain near present-day Summit Hill, Pennsylvania close to the border Schuylkill and Carbon counties. The following year, in 1793, the Lehigh Coal Mine Company was founded, but management proved weak and tried to operate in an absentee mode. Company personnel ambitiously attempted to trek to
10414-670: The first summit level canal to use pound locks in Europe was the Briare Canal connecting the Loire and Seine (1642), followed by the more ambitious Canal du Midi (1683) connecting the Atlantic to the Mediterranean. This included a staircase of 8 locks at Béziers , a 157 metres (515 ft) tunnel, and three major aqueducts. Canal building progressed steadily in Germany in the 17th and 18th centuries with three great rivers,
10541-462: The freedom to make deliveries well away from rail lined road beds or ditches in the dirt which could not operate in the winter. The longest extant canal today, the Grand Canal in northern China, still remains in heavy use, especially the portion south of the Yellow River . It stretches from Beijing to Hangzhou at 1,794 kilometres (1,115 miles). Canals are built in one of three ways, or
10668-747: The higher waters of the Charles River and the mouth of the Neponset River and the sea. It was constructed in 1639 to provide water power for mills. In Russia, the Volga–Baltic Waterway , a nationwide canal system connecting the Baltic Sea and Caspian Sea via the Neva and Volga rivers, was opened in 1718. Lehigh Coal Mine Company The company ultimately encompassed source industries, transport, and manufacturing, making it
10795-490: The large deposits on Pisgah Mountain near what is now Summit Hill, Pennsylvania , to Philadelphia via mule train to arks built near Lausanne on the Lehigh and Delaware rivers. The mining camps were over nine miles from the Lehigh River at Mauch Chunk. Sporadically active between the years of 1792 and 1814, the Lehigh Coal Mine Company was able to sell all of the coal it could mine to fuel-hungry markets but lost many
10922-598: The later Delaware Canal was to the Lehigh, the Union Canal , built between 1821 and 1828, was purpose designed to connect the Susquehanna River with the Schuylkill Canal at Reading . When completed, the two canals combined to make a water link between Philadelphia and the slack water level of the Susquehanna River at Middletown . This route along the Schuylkill Valley was envisioned primarily as
11049-549: The load were carried by a barge on a waterway, then up to 30 tons could be drawn by the same horse. — technology historian Ronald W. Clark referring to transport realities before the industrial revolution and the Canal age . Hohokam was a society in the North American Southwest in what is now part of Arizona , United States, and Sonora , Mexico. Their irrigation systems supported the largest population in
11176-506: The locktender's houses still exist. Even if filled in, the canal's presence in many river communities is memorialized by several Canal Streets. Leesport has a restored Locktender's house on E. Wall Street. The adjacent lock had long been filled with a car wash located on the site, but in 2011, the lock car wash was removed, and the lock unearthed. Near Gibraltar , the Allegheny Creek Aqueduct still exists along with
11303-480: The longest canal in the world today and the oldest extant one. It is 1,794 kilometres (1,115 mi) long and was built to carry the Emperor Yang Guang between Zhuodu ( Beijing ) and Yuhang ( Hangzhou ). The project began in 605 and was completed in 609, although much of the work combined older canals, the oldest section of the canal existing since at least 486 BC. Even in its narrowest urban sections it
11430-534: The longest one of that period being the Hong Gou (Canal of the Wild Geese), which according to the ancient historian Sima Qian connected the old states of Song, Zhang, Chen, Cai, Cao, and Wei. The Caoyun System of canals was essential for imperial taxation, which was largely assessed in kind and involved enormous shipments of rice and other grains. By far the longest canal was the Grand Canal of China , still
11557-581: The mine site, dig the anthracites, and then use mules to transport bags of it to the Lehigh River , which required cutting down trees and building crude arks near Lausanne Landing and then shooting the Lehigh River's rapids, hoping to reach the river's confluence with the Delaware River at Easton on the Pennsylvania border with New Jersey . The Lehigh Coal Mining Company was sporadically successfully in mining and transporting anthracite coal to Philadelphia , and its rights were eventually absorbed by
11684-421: The mule trails down from the coal deposits at Summit Hill, Pennsylvania , and others to build docks, boat building facilities, and the canal systems head end pool and locks. The canal head end needed a location where barges could be built and timber and coal could be brought into slack water. The challenge was to do it above the gap made by the east end of Mount Pisgah , a hard rock knob that towers 900 feet above
11811-399: The nine-mile road from the river to the mines was unanimously voted impracticable. "To give you an idea of the country over which the road is to pass," wrote one of the commissioners, "I need only tell you that I considered it quite an easement when the wheel of my carriage struck a stump instead of a stone." The public, meanwhile, was divided. Some held that the attempt to operate the coal mine
11938-506: The numbers that once fueled and enabled economic growth, indeed were practically a prerequisite to further urbanization and industrialization. For the movement of bulk raw materials such as coal and ores are difficult and marginally affordable without water transport. Such raw materials fueled the industrial developments and new metallurgy resulting of the spiral of increasing mechanization during 17th–20th century, leading to new research disciplines, new industries and economies of scale, raising
12065-433: The passage of boats carrying 230 tons of coal . These barges were better than twice the size that could be used on the rival Lehigh and Delaware Canals with the latter's limited lock lengths; an artifact of having a state run a practical construction project without businessmen’s balancing viewpoints. In 1850, a price-fixing arrangement with the railroad stabilized prices for the transportation of anthracite. This decade
12192-487: The passage of coal boats by means of artificial floods. The coal arrived at the head end from the mines at Summit Hill or down along the steep mule trail from near the headwaters of Panther Creek . It floated down the navigation; at journey's end, the barges were sold as fuel or for Delaware basin transports. The navigation company began shipping significant quantities of coal by early 1819, ahead of expectations, and attained their goal of regular shipments in 1820. In 1820,
12319-604: The pre-railroad days of the industrial revolution, water transport was the gold standard of fast transportation. The first artificial canal in Western Europe was the Fossa Carolina built at the end of the 8th century under personal supervision of Charlemagne . In Britain, the Glastonbury Canal is believed to be the first post-Roman canal and was built in the middle of the 10th century to link
12446-624: The projects. The Lehigh and Schuylkill canals had similar problems, both had to make navigable a series of rapids with rivers providing less water than was optimal—and ironically, by the 1820s, both eventually shipped coal from the opposite ends of the Little Schuylkill River's tributary, and the coal deposits once owned by Lehigh Coal Mine Company (the LCMC), in the Panther Creek Valley . Two years after this [1823]
12573-427: The region. White and Hazard very shortly found themselves on the receiving end of investor criticisms that the improvements and mining operation at Summit Hill were failing and were both considered crackpot schemes. The majority opinion was that improvements were possible, but that coal mining was less likely to succeed. They secured additional investors by forming two companies, the Lehigh Coal Company (LCC) and
12700-468: The representative of Schuylkill County in the state senate declared there was no coal in his district; that there was a kind of black stone that was called coal, but that it would not burn! As related in The Delaware and Lehigh Canals history, two of the principle investors in the Schuylkill Navigation Company were partner industrialists and mill owners White and Hazard , who were anxious to secure
12827-414: The right-of-way surveyed by White (well before 1818's charter) ran along the virtually uniform gradient created by grading the original mule trail, work overseen by Hazard in 1818. During the summer of 1827, a railroad was built from the mines at Summit Hill to Mauch Chunk. With one or two unimportant exceptions, this was the first railroad in the United States. It was nine miles in length, and occupied
12954-531: The river from Phoenixville , then through Port Providence. An impounding basin from the silt removal project cuts the canal after Longford Road and the final mile of the Reach, has been filled in. An old stone aqueduct , that carried the Canal over Crossman's Run, and the outlet lock tender's house are still existent; but Lock 61, Brower's Lock, was filled in. This reach is named for Thomas Oakes , chief engineer of
13081-494: The route of the old wagon road most of the distance. Summit Hill, lying nearly a thousand feet higher than Mauch Chunk, the cars on the road made this descent by gravity, passing the coal, at their destination to the boats in the river by means of inclined planes and chutes. The whole of this plan was evolved by Josiah White, under whose direction it was consummated in a period of about four months. The rails were of rolled bar-iron, three-eighths of an inch in thickness and an inch and
13208-495: The slackwater pool of the Schuylkill Canal above the Black Rock Dam to Phoenixville. This canal paralleled the top end of the Oakes Reach, on the opposite side or the river. While the Chester County Canal was initially built to provide water power to the mill, in 1847 it carried scheduled passenger service between Phoenixville and Norristown . The spring freshet of 1869 destroyed the mill "and very much injured
13335-480: The standard of living for any industrialized society. Most ship canals today primarily service bulk cargo and large ship transportation industries, whereas the once critical smaller inland waterways conceived and engineered as boat and barge canals have largely been supplanted and filled in, abandoned and left to deteriorate, or kept in service and staffed by state employees, where dams and locks are maintained for flood control or pleasure boating. Their replacement
13462-399: The stoves and furnaces of Philadelphia and beyond. On March 20, 1818, the company was granted various powers they sought to secure navigation in the Lehigh River, including with boats loaded with one hundred barrels, or ten tons on coal. Pennsylvania's state government kept an eye on the operation, however, and a minority felt the two men might succeed. The state reserved the right to compel
13589-415: The surrounding districts, and should pay, if demanded, one ear of corn as a yearly rental. White and Hazard found a wide divergence of opinion on whether the Lehigh River could be tamed, and even fewer believed that the mining of coal from the Lehigh River's surrounding lands was feasible. On three separate occasions, funds were raised to improve the Lehigh River's functionality. By 1820, the two companies had
13716-430: The trains in specially constructed cars, affording a novel and rather ludicrous spectacle. Thirty minutes was the average time consumed in making the descent, while the weary trip back to the mines required three hours. The wagon road to become gravity railroad ran from what later became Summit Hill along the south side of Pisgah Ridge to Mount Pisgah to the canal's loading chute over 200 feet (61 m) above
13843-406: The trip down the Lehigh River. In 1815, convinced they could much improve the reliability of its delivery, they began in 1815 to inquire after the rights to mine the LCMC's coal and hatched a plan to improve the navigation on the Lehigh as a key step. In 1818, building on two predecessor companies, founders Erskine Hazard and Josiah White entered the coal industry to serve customers seeking
13970-573: The valley of the River Dee . Another option for dealing with hills is to tunnel through them. An example of this approach is the Harecastle Tunnel on the Trent and Mersey Canal . Tunnels are only practical for smaller canals. Some canals attempted to keep changes in level down to a minimum. These canals known as contour canals would take longer, winding routes, along which the land was
14097-514: The war & blockade caused bituminous shortages, and by the time five arks were sent down river, three sank, leaving the directors of LCMC disgusted and unwilling to fund more losses. The company began to prepare plans and surveyed sites, and when the state legislature approved the river work in 1818, immediately hired teams of men and began to install locks, dams, and weirs, including water management gates of their own novel design. The desired opportunity " to ruin themselves ," as one member of
14224-483: The water, throwing up the round river-stones into low walls or wing dams, thus providing a regular descending navigation. It soon became apparent that the carrying out of this plan would not insure sufficient water in seasons of drought to float a loaded ark or boat, and the success of the whole enterprise hung in the balance. White resorted to the expedient of creating artificial freshets. Dams were constructed in Mauch Chunk in present-day Jim Thorpe , and sluice gates of
14351-619: The winter's fuel shortage but created a temporary glut. After buying out co-founder George Hauto, White and Hazard reworked their lease deal with the Lehigh Coal Mine Company, and merged it with the Lehigh Coal Company, acquiring ownership of its 10,000 acres spanning three parallel valleys in the 14 miles (23 km) from Mauch Chunk to Tamaqua . A few months later, they merged the LCC and the Lehigh Navigation Company. In late 1821, they filed papers to incorporate Lehigh Coal & Lehigh Navigation , which took effect in 1822. As operations managers of
14478-492: Was acquired in 1872 by the competing Pennsylvania Railroad —in a blatant act supporting a bid for monopoly , soon Schuylkill boats were denied access to this important New Jersey waterway. As a result, traffic on the Schuylkill decreased rapidly. Adding insult to injury, the PRR itself invaded the Schuylkill's territory with the construction of its Schuylkill Branch in the mid-1880s. By 1890 only 144,994 tons of cargo passed through
14605-420: Was against it, and the majority of persons approached were entirely incredulous as to its being anything else than a stone, incapable of being burned by any inherent qualities it possessed. Not only the coal but the fact that it was coal had to be discovered. Even as late as the year 1812, when it was sought to secure an act authorizing the improvement of the Schuylkill river in order to convey coal to Philadelphia,
14732-466: Was also expensive, as men expect compensation in the form of wages, room and board. This was because long-haul roads were unpaved, more often than not too narrow for carts, much less wagons, and in poor condition, wending their way through forests, marshy or muddy quagmires as often as unimproved but dry footing. In that era, as today, greater cargoes, especially bulk goods and raw materials , could be transported by ship far more economically than by land; in
14859-458: Was an option in some cases, sometimes supplemented by other methods to deal with seasonal variations in flow. Where such sources were unavailable, reservoirs – either separate from the canal or built into its course – and back pumping were used to provide the required water. In other cases, water pumped from mines was used to feed the canal. In certain cases, extensive "feeder canals" were built to bring water from sources located far from
14986-417: Was farcical, but that the improvement of the Lehigh River was an undertaking of great value and would prove profitable to investors. Others were just as positive that improvement's to the river's navigation would follow the fate of so many similar enterprises but that a fortune was in store for those who invested in the Lehigh mines. The direct result of the examiners' report and of the public debate ultimately
15113-464: Was founded by industrialists Josiah White and Erskine Hazard , who sought to improve delivery of coal to markets. and a thickly=accented German immigrant miner named Hauto. The company is known in the Lehigh Valley as the "Old Company", as distinct from the later 1988–2010 company, which was very similarly named the Lehigh Coal and Navigation Company and was known as the "New Company" in
15240-407: Was gradual, beginning first in the United States in the mid-1850s where canal shipping was first augmented by, then began being replaced by using much faster , less geographically constrained & limited, and generally cheaper to maintain railways . By the early 1880s, canals which had little ability to economically compete with rail transport, were off the map. In the next couple of decades, coal
15367-557: Was improved further between 1821 and 1824, and was finally transformed into a two-way canal between 1827 and 1829. The Lehigh Canal played a hugely influential role in the nation's ability to transport anthracite coal , a primary energy source at the time, to the company's primary markets in the Northeastern United States . By the early 1830s, the Lehigh Canal and its bridges along the Delaware River inspired
15494-575: Was in operation until 1931 and was almost completely filled in the 1950s. Some remaining watered reaches are now used for recreation. The Schuylkill Navigation Company was incorporated in 1815. An application for a charter to improve the Lehigh also was filed that year. These represented the growing impetus in the United States to develop a water transportation network similar to that emerging in Great Britain . The lower Lehigh Canal project made its first test shipments of coal in 1819, proving
15621-424: Was increasingly diminished as the heating fuel of choice by oil, and growth of coal shipments leveled off. Later, after World War I when motor-trucks came into their own, the last small U.S. barge canals saw a steady decline in cargo ton-miles alongside many railways, the flexibility and steep slope climbing capability of lorries taking over cargo hauling increasingly as road networks were improved, and which also had
15748-426: Was once used to describe linear features seen on the surface of Mars , Martian canals , an optical illusion. A navigation is a series of channels that run roughly parallel to the valley and stream bed of an unimproved river. A navigation always shares the drainage basin of the river. A vessel uses the calm parts of the river itself as well as improvements, traversing the same changes in height. A true canal
15875-612: Was set on ice skates from the existing waste water control valve structure at the lower end to the Lock 60 Lower Lock Head Wall. The distance traveled for the record is 2.33 miles. 3" of snow was present on the ice, temp 14 F, head wind approximately 10–15 mph. The head of the Manayunk Reach is at the Flat Rock Dam (Dam 31), near Shawmont. The canal originally passed through the dam structure at Lock 68. However Lock 68
16002-450: Was the Schuylkill Navigation's most prosperous period; in 1859, its peak year, it transported 1,700,000 tons of cargo. However, in that same year the Philadelphia and Reading Railroad carried over 2,500,000 tons, an amount comparable to the Lehigh Canal's 1855 peak of 2,300,000 tons of coal. During the 1860s the railroads had become the king of transportation with their improved power and speed of travel, so like most North American canals,
16129-516: Was the organization of the first interlocking companies in American commercial history. The Lehigh Navigation Company was formed with a capital stock of $ 150,000 and the Lehigh Coal Company was launched with capital stock of $ 55,000. This formed one of the most striking illustrations in American history of the dependence of a commercial venture upon methods of inland transportation. The Lehigh Navigation Company proceeded to build its dams and walls while
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