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Allied Aircraft Piston Engines of World War II, now in its second edition, coalesces multiple aspects of war-driven aviation and its amazing technical accomplishments, leading to the allied victory during the second world war. Not by chance, the air battles that took place then defined much of the outcome of one of the bloodiest conflicts in modern history. Forward-thinking airplane design had to be developed quickly as the war raged on, and the engines that propelled them were indeed the focus of intense cutting-edge engineering efforts. Flying higher, faster, and taking the enemy down before they even noticed your presence became a matter of life or death for the allied forces. Allied Aircraft Piston Engines of World War II, Second Edition, addresses British- and American-developed engines. It looks at the piston engines in detail as they supported amazing wins both in the heat of the air battles, and on the ground supplying and giving cover to the troops. This new edition, fully revised by the original author, Graham White, offers new images and information, in addition to expanded specifications on the Rolls-Royce/ Packard Merlin and the Pratt & Whitney R-2800 engines. Jay Leno, a known enthusiast, wrote the Foreword.
Allied Aircraft Piston Engines of World War II, now in its second edition, coalesces multiple aspects of war-driven aviation and its amazing technical accomplishments, leading to the allied victory during the second world war. Not by chance, the air battles that took place then defined much of the outcome of one of the bloodiest conflicts in modern history. Forward-thinking airplane design had to be developed quickly as the war raged on, and the engines that propelled them were indeed the focus of intense cutting-edge engineering efforts. Flying higher, faster, and taking the enemy down before they even noticed your presence became a matter of life or death for the allied forces. Allied Aircraft Piston Engines of World War II, Second Edition, addresses British- and American-developed engines. It looks at the piston engines in detail as they supported amazing wins both in the heat of the air battles, and on the ground supplying and giving cover to the troops. This new edition, fully revised by the original author, Graham White, offers new images and information, in addition to expanded specifications on the Rolls-Royce/ Packard Merlin and the Pratt & Whitney R-2800 engines. Jay Leno, a known enthusiast, wrote the Foreword.
"The frenzy of technological invention and improvement that accompanied each large-scale conflict during the twentieth century has been one of the most important factors in driving the spectacular scientific advances made during the last hundred years. The half-way point of the century saw the horrors of the first truly global battle--World War II. At that time the piston aero engine was at its zenith and the world's airforces were almost entirely propeller driven. It is a period that provides the most interesting study of these engines and the aircraft they powered because the rapid change to turbojets that occurred in the post-war era saw the demise of the piston engine on almost all types of military aircraft and large airliners. This book looks at the design and development of the most famous engines used by the combatants during this great air war. Each type is studied and evaluated in historical perspective and many famous aircraft are illustrated to demonstrate installation and differing usage. One Merlin makes a Spitfire, two a Mosquito, and four a Lancaster. Engines made in America, Russia, and Germany could boast the same versatility and are described here in detail." --Book jacket.
Aviation technology progressed by leaps and bounds during the late 1930s and early 1940s. Although much of this was due to advances in airframe design, much less appreciated is the role of aero engine development. This book focuses on this aspect, particularly German piston aero engine design and development, which has been generally under researched and under published compared to Allied piston aero engines. It covers key piston aero engines such as those produced by Daimler-Benz, BMW, and Junkers, as well as less well appreciated engines such as those produced by Siemens, Argus, and Hirth. It also covers turbojets and rockets, particularly the Junkers Jumo 004 and Walter 109-509 that powered the infamous Messerschmitt Me 262 and Me 163 jet and rocket fighters. Finally, the book concludes with tables comparing Allied and German piston engines, a glossary of key terms, and a bibliography....
In the 1930s, as nations braced for war, the German military build up caught Britain and the United States off-guard, particularly in aviation technology. The unending quest for speed resulted in the need for radical alternatives to piston engines. In Germany, Dr. Hans von Ohain was the first to complete a flight-worthy turbojet engine for aircraft. It was installed in a Heinkel-designed aircraft, and the Germans began the jet age on August 27, 1939. The Germans led the jet race throughout the war and were the first to produce jet aircraft for combat operations. In England, the doggedly determined Frank Whittle also developed a turbojet engine, but without the support enjoyed by his German counterpart. The British came second in the jet race when Whittle's engine powered the Gloster Pioneer on May 15, 1941. The Whittle-Gloster relationship continued and produced the only Allied combat jet aircraft during the war, the Meteor, which was relegated to Home Defense in Britain. In America, General Electric copied the Whittle designs, and Bell Aircraft contracted to build the first American jet plane. On October 1, 1942, a lackluster performance from the Bell Airacomet, ushered in the American jet age. The Yanks forged ahead, and had numerous engine and airframe programs in development by the end of the war. But, the Germans did it right and did it first, while the Allies lagged throughout the war, only rising to technological prominence on the ashes of the German defeat. Pavelec's analysis of the jet race uncovers all the excitement in the high-stakes race to develop effective jet engines for warfare and transport.
Our stories of industrial innovation tend to focus on individual initiative and breakthroughs. With Making Jet Enginesin World War II, Hermione Giffard uses the case of the development of jet engines to offer a different way of understanding technological innovation, revealing the complicated mix of factors that go into any decision to pursue an innovative, and therefore risky technology. Giffard compares the approaches of Britain, Germany, and the United States. Each approached jet engines in different ways because of its own war aims and industrial expertise. Germany, which produced more jet engines than the others, did so largely as replacements for more expensive piston engines. Britain, on the other hand, produced relatively few engines—but, by shifting emphasis to design rather than production, found itself at war's end holding an unrivaled range of designs. The US emphasis on development, meanwhile, built an institutional basis for postwar production. Taken together, Giffard's work makes a powerful case for a more nuanced understanding of technological innovation, one that takes into account the influence of the many organizational factors that play a part in the journey from idea to finished product.
The piston engines that powered Second World War fighters, the men who designed them, and the secret intelligence work carried out by both Britain and Germany would determine the outcome of the first global air war. Advanced jet engines may have been in development but every militarily significant air battle was fought by piston-engined fighters. Whoever designed the most powerful piston engines would win air superiority and with it the ability to dictate the course of the war as a whole. This is the never before told story of a high-tech race, hidden behind the closed doors of design offices and intelligence agencies, to create the war's best fighter engine. Using the fruits of extensive research in archives around the world together with the previously unpublished memoirs of fighter engine designers, author Calum E. Douglas tells the story of a desperate contest between the world's best engineers - the Secret Horsepower Race.
A tale of a lifelong passion for a WWII aircraft that changed the author’s life: “It is almost like an adventure novel except it is true” (Air Classics). This book tells the story of a Dutch boy who grew up during the 1950s in postwar Borneo, where he had frequent encounters with an airplane, the Douglas DC-3, a.k.a. the C-47 Skytrain or Dakota, of World War II fame. For a young boy living in a remote jungle community, the aircraft reached the proportions of a romantic icon as the essential lifeline to a bigger world for him, the beginning of a special bond. In 1957, his family left the island and all its residual wreckage of World War II, and he attended college in The Hague. After graduation, he started a career as a corporate executive—and met the aircraft again during business trips to the Americas. His childhood passion for the Dakota flared up anew, and the fascination pulled like a magnet. As if predestined, or maybe just looking for an excuse to come closer, he began a business to salvage and convert Dakota parts, which meant first of all finding them. As the demand for these war relic parts and cockpits soared, he began to travel the world to track down surplus, crashed, or derelict Dakotas. He ventured deeper and deeper into remote mountains, jungles, savannas, and the seas where the planes are found, usually as ghostly wrecks but sometimes still in full commercial operation. In hunting the mythical Dakota, he often encountered intimidating or dicey situations in countries plagued by wars or revolts, others by arms and narcotics trafficking, warlords, and conmen. The stories of these expeditions take the reader to some of the remotest spots in the world, but once there, one is often greeted by the comfort of what was once the West’s apex in transportation—however now haunted by the courageous airmen of the past.
Except in a few instances, since World War II no American soldier or sailor has been attacked by enemy air power. Conversely, no enemy soldier orsailor has acted in combat without being attacked or at least threatened by American air power. Aviators have brought the air weapon to bear against enemies while denying them the same prerogative. This is the legacy of the U.S. AirForce, purchased at great cost in both human and material resources.More often than not, aerial pioneers had to fight technological ignorance, bureaucratic opposition, public apathy, and disagreement over purpose.Every step in the evolution of air power led into new and untrodden territory, driven by humanitarian impulses; by the search for higher, faster, and farther flight; or by the conviction that the air way was the best way. Warriors have always coveted the high ground. If technology permitted them to reach it, men, women andan air force held and exploited it-from Thomas Selfridge, first among so many who gave that "last full measure of devotion"; to Women's Airforce Service Pilot Ann Baumgartner, who broke social barriers to become the first Americanwoman to pilot a jet; to Benjamin Davis, who broke racial barriers to become the first African American to command a flying group; to Chuck Yeager, a one-time non-commissioned flight officer who was the first to exceed the speed of sound; to John Levitow, who earned the Medal of Honor by throwing himself over a live flare to save his gunship crew; to John Warden, who began a revolution in air power thought and strategy that was put to spectacular use in the Gulf War.Industrialization has brought total war and air power has brought the means to overfly an enemy's defenses and attack its sources of power directly. Americans have perceived air power from the start as a more efficient means of waging war and as a symbol of the nation's commitment to technology to master challenges, minimize casualties, and defeat adversaries.
The extreme designs of German piston fighters which were left on the drawing board as soon as the first jet engines were available for the mass manufacture of the Messerschmitt Me 262