Revenue Cutter Service Gunboat E.A. Stevens : The Stevens Family’s Civil War Experiment in Modern Naval Technology . By William H. Thiesen Figure 1. “The Stevens Iron Steam Gun-Boat Naugatuck , now at Fortress Monroe.” Illustration from Harper’s Weekly , 1862. (All photographs courtesy of the Naval History & Heritage Command). The United States Revenue Cutter Revenue Cutter Service’s willingness to Service played a unique role in the nine - experiment with untested naval technolo - teenth century technological transition gy. This unique vessel also testifies to the from wood and sail to iron and steam. In wealth of innovations based on iron and the 1840s, it built some of the federal gov - steam and introduced by New Jersey’s ernment’s first iron ships. The service also Stevens family, the period’s most prolific adopted John Ericsson’s successful screw family of marine engineers and inventors. propeller and experimented with the (Figure 1) unsuccessful Hunter horizontal wheel During the late-eighteenth and early propulsion system. The Revenue Cutter nineteenth centuries, all forms of mecha - Service’s Civil War-era gunboat E.A. nized technology saw a sea change in Stevens serves as another example of the motive power and construction materials. NAUTICAL RESEARCH JOURNAL 141 Born in 1749, technological innova - tor John Stevens began his career as a lawyer and played an important part in developing early American patent legisla - tion for American inventions. In fact, he was one of the first citizens to receive a patent under the legislation. John Stevens’s true calling proved to be engineering and inventing. He worked diligently on a way to provide steam navigation on the Hudson River. In the early 1800s, he developed the first screw propeller used in America and the first successful multi-tube steam boiler. Both of these advanced marine technolo - gies saw use in 1804, but they were not widely adopted until much later. Stevens next focused his efforts on steam railroad - ing, obtaining charters from the states of Figure 2. Edwin A. Stevens. Line engraving published in New Jersey and Pennsylvania. With the The Stevens Ironclad Battery , 1874. oversight of his capable sons, Robert and Edwin, these railroading ventures would Newly developed technologies associated become very profitable. with iron and steam power, including John’s sons also played an impor - heavy machinery and railroads, replaced tant role in developing new iron and the medieval forms of technology associat - steam-related technologies, especially ed with wood and wind energy. By the mid- those related to railroads and navigation. nineteenth century, military technology Stevens’s eldest, John Cox Stevens, proved witnessed rapid technological change and, an excellent yachtsman and, in 1804, in the years leading up to the American piloted the family’s first screw-propelled Civil War, inventors took specific interest boat from New Jersey across the Hudson in new naval technology. These men River to New York City. He also founded applied steam and iron to already existing the New York Yacht Club and captained machines of war, such as warships, semi- the fast schooner America , which brought submersibles, ironclads, rams, ordnance, the coveted America ’s Cup to the United mines, and torpedoes. States in 1851. During the late eighteenth century John Stevens’s younger sons Robert and early nineteenth century, the Stevens Livingston Stevens and Edwin Augustus family of northern New Jersey proved one Stevens furthered their father’s work in of the world’s most prolific groups of inno - developing new nautical technology. Robert vators of naval, military, maritime, and Stevens received excellent instruction locomotive technology. They relied on the under tutors and in his father’s experimen - new technologies of steam and iron and tal work. He designed the fast yacht, tried to solve the issues of naval defense, Maria , which defeated America before that transportation, and navigation found in vessel captured the America ’s Cup from their region, including northern New England in 1851. He helped his father Jersey, along the Hudson River, and around build Juliana , which established the New York City. world’s first steam ferry line by connecting 142 Vol. 54, No.3 FALL 2009 New York City with northern New Jersey. 1830, Edwin became the first manager and He assisted in the design and construction treasurer for the Stevens-owned Camden of the steamer Phoenix , the first American and Amboy Railroad. He would hold this steamer to navigate ocean waters and the key position with the railroad for another first steam ferry to navigate the Delaware thirty-five years. (Figure 2) River. Robert also pioneered railroad engi - In addition to steam machinery and neering, inventing the T-rail and standard shipping, the Stevens family interested bolts and nuts for railroad tracks, as well as itself in developing new naval technology the “hook-headed” spike. Moreover, Robert as early as the War of 1812. During that invented marine technology, such as the war, they conducted the world’s first exper - hogging truss and skeletal walking beam; iments in naval armor and ordnance. and ordnance innovations, such as Similar experiments conducted by the fed - America’s first percussion shell. eral government failed to materialize until Edwin A. Stevens worked side-by- later in the nineteenth century. By 1815, side with his father and brothers on vari - the Stevens’ suggested the construction of ous engineering works. He even invented a an armored fleet for the United States new plow design and a special “two-horse Navy. Their campaign began well before dump wagon.” Nevertheless, Edwin’s the French considered construction of their genius lay in business, management, and armored vessels in the late 1850s. By the marketing. By the age of twenty-five, John late 1830s, Robert Stevens had begun Stevens noticed Edwin’s talents and made designing a large ironclad battery, and he him the trustee of nearly all of the Stevens and his brother Edwin began lobbying the family estate. While Robert spent his time Navy Department to fund the cost of the engineering and inventing new technology warship. for the Stevens enterprises, Edwin success - By 1841, amid a war scare with fully ran a freight and passenger stage line Great Britain over the disputed border with between New York and Philadelphia. In Canada, Edwin, and Robert Stevens pro - Figure 3. “The Stevens Bomb-Proof Battery as it will appear when completed.” Illustration from Harper’s Weekly , 1861. NAUTICAL RESEARCH JOURNAL 143 posed building an armored steam warship for the Navy. After tests of the Stevens’ armor plate and study - ing designs presented by the Stevens brothers, the House Committee on Naval Affairs ruled in favor of building the ship. In the spring of 1842, Congress author - ized funding for the project and, by early 1843, Congress appropriated to the Stevens brothers $250,000 to underwrite start-up costs for a new armored steam battery. The cost included tools, supplies, and ship - Figure 4. Contemporary model of the Civil War gunboat Naugatuck , ways to support construction of designed to demonstrate the unique gun mounting. what generally became known as the “Stevens Battery.” At 415 feet, the design proved much larger and costlier than ironclads and moni - tors built during the Civil War; however, design and construction of the Stevens Battery during the 1850s likely shaped the ideas of armored warship builders overseas and in navies on both sides of the Civil War. (Figure 3) The iron steamer that became the United States Revenue Cutter Service gunboat E.A. Figure 5. above) Contemporary Stevens began its serv - model of the Stevens family’s unique twin propeller arrange - ice life well before its ment. Civil War service. Built in 1844, the vessel dis - Figure 6. (left) Cast iron Stevens propeller. Line engraving pub - placed 192 tons and lished in The Stevens Ironclad measured 101 feet in Battery , 1874. length and about twenty feet across the beam. Originally named Naugatuck , the vessel proved one of the first iron propeller ships to navigate American waters. Constructed by the New York City locomotive builder H.R. Dunham & Company, the small vessel served the Ansonia Copper and Brass Company out of Derby, Connecticut. During the Figure 7. Contemporary model of the Civil War gunboat Naugatuck , Showing the armor belt and thick cedar bulwark. 144 Vol. 54, No.3 FALL 2009 1850s, Naugatuck ran between New design. (Figure 4) Stevens replaced the London and possibly Norwich and New original drive train with the Stevens fami - York. ly’s unique twin propeller arrangement. In 1856, engineer Robert Stevens (Figure 5) He also incorporated ballast passed away, leaving his younger brother tanks fore and aft within the original iron Edwin to oversee reconstruction of hull. The New York Times reported on Naugatuck into a unique steam gunboat. March 22, 1862, that “The Naugatuck is By 1861, Stevens had purchased the vessel not intended to be a model of Mr. Stevens’ to experiment with innovations associated iron-clad battery, but is designed to illus - with the much larger Stevens Battery , trate one or two novel ideas connected which still sat unfinished on the Stevens’s with that monstrous engine of war, viz: shipways in Hoboken. The reconstructed The ability to sink and raise a vessel with Naugatuck would prove revolutionary in great rapidity; to turn and manage her by many ways and included a number of means of two propellers located one on patented innovations. In 1861 and early each side of the stern; also, taking up the 1862, Stevens rebuilt the deck arrange - recoil of the gun by means of India-rub - ment to support one heavy cannon fixed ber.” (Figure 6) During this conversion, amidships on a unique mount of his Stevens named the small iron ship for Figure 8.
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