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Twin-Engine Propeller-Driven Aircraft Configurations
Gateway News American Institute of Aeronautics and Astronautics, St. Louis Section http://www.me.wustl.edu/ME/orgs/aiaastl/ http://www.aiaa.org NOVEMBER 2001 Twin-Engine Propeller-Driven Aircraft Configurations by John Leonard C ausal observation of twin engine propeller aircraft reveals that most configurations consist of a forward wing with nacelle-mounted engines on each side and a single tail empennage. However, about a third of the aircraft are of various engine and airframe arrangements. The purpose of this article is to review the alternative ways in which a twinengine propeller-driven aircraft can be put together (excluding bi-planes and helicopters.) Interestingly, 25 different configurations were identified in this study, and illustrated in Figure 1. Aircraft are arranged in nine categories, as much as possible, with similar configuration traits. Each configuration category is identified with a sample aircraft. A few aircraft do not fit perfectly a single category and thus span multiple categories. Additional configurations have been proposed, but all of the ones shown here were actually built and flown. Baseline twin engine configurations have been around for years; however, the design alternatives provide the most interest. Several of the alternate configurations are morphological extensions of the baseline. Lengthening the nacelles and shortening the baseline central fuselage results in a twin boom configuration. Carry this further with elimination of the center fuselage and a twin fuselage configuration emerges. Developers have moved engines closer together resulting in a reduced spacing configuration. The final movement of the engines to the centerline produces the centerline thrust configurations as a limiting condition. Moving the engines (or at least the propellers) outward results in the wing tip configura- tions. The engines can be turned around resulting in a conventional pushers configuration. And sometimes the engines are located roughly where they are on the baseline, but attached to the fuselage or wing by pylons. Aerodynamic advantages can be obtained by switching the wing and tail, resulting in a canard configuration. Flying wing configurations, on the other hand, dispense with the tail (and sometimes most of the fuselage) all together. Sketches that are straddling the regional dividing lines in Figure 1 incorporate the features of both groups. Of the 25 configurations identified, the question arises as to how popular is a particular configuration? A review of 292 aircraft: British, Canadian, French, German, international, Israeli, Italian, Japanese, Russian, and US origin provides the breakdown shown in Figure 2. This list is arranged in the order of decreasing popularity. For each of the identified aircraft, a sample aircraft name is given along with the configuration type. For example, the Lockheed P-38 is a twin boom arrangement with tractor propellers. (It shares these configuration traits with the Fairchild C-82, C-119, XC-120, IAI Aravia, and others). Figure 2 also shows that the baseline configuration accounts for about 66 percent of all configurations, while the P-38 type is second with about 6 percent. The other 23 configurations make up the remaining 28 percent. Another interest note, of the 25 configurations, 13 did not have a production representative. Figure 1. Twin-Engine Propeller Driven Aircraft Configuration the two engines cancels each other out. Drag was also reduced in these configurations by eliminating some of the interference drag between the nacelles and wing. Getting the engine off of the wing naturally results in a cleaner, more efficient wing. This inspired the Macchi M.C.72, Douglas XB-42, and Dornier Do-335 (all centerline thrust engine arrangements) to be fast propeller driven aircraft. An aft pusher engine also tends to reduce the fuselage base drag by pulling the air around the fuselage. The Cessna Skymaster is reported to be faster with the front engine out than with the rear engine out. What advantages can be attributed to the alternative twin engine configurations? Speed is certainly an advantage for the majority. The twin boom P-38 was much faster than contemporary WW II twin engine fighters. A twin fuselage configuration, as on the P-82, increased speed, payload, and range over its single engine predecessor. These benefits were due in part to reduced frontal area, drag, and more powerful engines. The centerline thrust arrangements deals with a serious twin engine aircraft problems; engine out controllability. With both engines thrusting on the aircraft centerline, an engine failure does not produce a yaw moment, plus the torque of 2 purpose baseline configuration is a compromise that satisfies most user requirements. Twin engine propeller configurations were of more interest before the days of jet propulsion. However, turboprop aircraft continue to be designed and produced for private and commercial use. In fact, Sukhoi is presently building a new turboprop light transport (the S-80) of twin boom configuration. Ayres is building the Loadmaster, for FedEx, which is a side-by-side coupled tractor configuration. The Bell/Boeing team is just starting production of the V-22 with wingtip mounted engines and propellers. Adams Aircraft is starting certification on their M-309 centerline thrust general aviation twin. The Rutan Defiant canard tractor/pusher and the Embraer/FMA CBA-123 fuselage pylon mounted pusher are recent designs. In the future twin engine propeller configurations will continue to be developed along with the more common baseline configuration. However, special missions may require innovative solutions. Figure 2. Twin engine flying wings have two benefits inherent to their configuration. First, structural weight is less because the weight and lift are spread across the span so that the local lift supports the local weight (engines, fuel, payload.) Second, without a fuselage or empennage, drag and weight of these items are eliminated. Wing tip propeller configurations allow large propeller diameters for V/STOL aircraft, and large amounts of lift from the available power. In these configurations, propellers or engines are usually shafted together to prevent a catastrophic yaw moment in the event of an engine failure. Canard configurations typically have reduced drag because both wing and tail produce lift. Classical wing and tail configurations have a down load on the tail that must be compensated with additional lift of the wing. Each of these alternate configurations has a particular mission advantage; however, the general ADAM M-309 AYRES LOADMASTER SUKHOI S-80 3 • • • • • • • • • Part-time, evening masters degree programs available Chemical Engineering Civil Engineering Computer Engineering Computer Science Electrical Engineering Environmental Engineering Mechanical Engineering Systems Science and Mathematics Professional Degree Programs o Engineering Management o Information Management o Telecommunications Management Scholarships available for full-time doctoral study www.sever.wustl.edu 314-935-4849 4 University of Missouri-Rolla Engineering Education Center St. Louis Located on the UM-St. Louis Campus, 8001 Natural Bridge Road, St. Louis Offering a Master of Science Degree in • • • • • • • • AEROSPACE ENGINEERING CIVIL ENGINEERING COMPUTER ENGINEERING ELECTRICAL ENGINEERING ENGINEERING MANAGEMENT ENGINEERING MECHANICS ENVIRONMENTAL ENGINEERING MANUFACTURING ENGINEERING (Internet-based program) MECHANICAL ENGINEERING • The Center has graduated 2,500 M.S. students since 1964. Ten classes are needed to acquire an M.S. degree that may change your life. Classes Meet ONE Night Each Week Summer Semester begins June 11 Fall semester begins August 20 Please call (314) 516-5431 for more information or visit our web site at: http://www.umr.edu/~umreec American Institute of Aeronautics and Astronautics St. Louis Section 2001 - 2002 Council Roster Office Chairman Vice Chairman Secretary Treasurer Advisors Region V Rep Committee Arrangements Attendance Career Enhancement Education EducationHistorian Honors & Awards Membership Newsletter Pilot Education Pre-College Outreach Programs Public Policy Publicity-Internal Service Projects Tech. Specialist Mtg. Webmaster Young Members Young Professional Awards Strategic Planning ** Boeing Address: Incumbent Margaret A.R. (Peggy) Holly Andy Hesketh Bob Dowgwillo Karen Copper Dianne Chong John L. Mohr Rudy Yurkovich Larry Brase Chair Walt Reschke Andrew Cary Steve D'Urso Marty Ferman Fred Roos Ray Cosner Joe Stemler Dave Morgan Jeff Larrick Address MC S276-1009** MC S270-3800** MC S106-7126** MC S001-2700** MC S001-2700** 11638 Summerhaven Dr. St. Louis, MO63146 MC S106-7126** MC S064-1092** Address MC S064-3449** MC S106-7126** MC S064-2809** 1452 Old Farm Dr. St. Louis, MO 63146 MC S102-1431** MC S106-7126** MC S107-7250** MC S106-7250** MC S102-2272** Telephone 234-3513 232-2584 234-1013 234-5742 232-9719 567-3398 233-2563 777-5586 Telephone 777-4038 234-1830 233-5441 542-0703 234-9935 232-6481 232-3362 234-1919 232-3455 Bill LaManna Dick Pinckert Bruce Scheidhauer Gary White MC S276-1007** MC S034-1126** MC S270-4360 234-3526 234-0623 233-0759 John Donigan Jeff Gray Ron Smith MC S064-1426** MC S270-3200** MC S106-2103** 234-4103 233-6912 232-4671 Larry Brase MC S064-2355** 777-5586 The Boeing Company, P.O. Box 516, St. Louis, MO 63166 5 Fax 234-5010 234-2369 234-2369 777-1328 777-5161 Fax 997-8437 233-2918 232-3722 232-3722 234-0241 777-1139 232-1454 E-Mail [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] E-Mail [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] [email protected] Liberty Bell 7 at the Science Center by Karen Copper O LD N E W S Saturday, 21 July 2001 marked the 40th anniversary of Gus Grissom’s infamous suborbital flight and the accidental sinking of the Liberty Bell 7 spacecraft. The St. Louis Section of AIAA along with the Boeing St. Louis Leadership Association and INCOSE co-sponsored a commemorative event. The recovered and restored Liberty Bell 7 spacecraft was on display for the summer at the St. Louis Science Center during its’ national tour. The spacecraft was actually “home” for the anniversary! The Mercury space capsule was designed and manufactured in St. Louis at McDonnell Aircraft Company. Many of the folks who had worked on the project attended the event. In addition to the touring display, Boeing’s Historian, Larry Merritt provided many photographs and memorabilia items from his personal collection and the McDonnell archives. It was a truly unique and special display for those involved in aerospace in St. Louis. One hundred-thirteen folks came out to view the display. George Baldwin, a retired McDonnell pad foreman at Cape Canaveral brought his collection of Mercury and Gemini memorabilia to share. Some grandchildren attended and learned not only about the early days of space exploration but also of their grandparent’s part in history. It was a wonderful night to reminisce and reacquaint with our own history. 6 Second Family Fun Day Paper Airplane Contest O LD N E W S The second Family Fun Day Paper Airplane Contest was held on Saturday, 5 May at the Ladue Middle School. Fifty-seven people attended and their enthusiastic feedback indicated a desire for this to be an annual event! Participation was as follows: Age Category 2-4 5-7 8 - 11 12 - 15 Adults Participants 8 3 13 6 13 Time Aloft Winner Zachary Zuckerman Alexander David Daniel Nixon Tom Kovacs Gene David 2.6 sec 5.4 sec 5 sec 6.7 sec 9.9 sec Distance Winner Peter Jone Sam Zuckerman Mitchell Kramer Christopher Peters Mark Bierenbaum 27.6 ft 63.3 ft 57.2 ft 76.5 ft 83+ ft A huge “Thank You” goes to: Ken Blackburn for speaking, providing design guidance, demonstrating and judging the events. Ken donated copies of his latest paper airplane publications as attendance prizes. Martin Long for arranging our use of the Ladue Middle School’s gym and cafeteria. Andrew and Zachary Cary for helping to enter the contest results and prepare lunch. 7 Non-Profit Organization Standard A U. S. POSTAGE PAID Florissant, MO Permit No. 121 2001 – 2002 St. Louis Section Officers and Council Members NOVEMBER 2001 Chairperson Peggy Holly Vice Chairperson Andy Hesketh Secretary Bob Dowgwillo Treasurer Karen Copper Advisors Dianne Chong John L. Mohr Rudy Yurkovich Monday, 7 January 2002, 5pm - 7pm, in Boeing Building 100, Conference Room 2A (behind the main auditorium) General Aviation Safety Seminar Saturday, 19 January 2002, 0730 to 1400 January Dinner Meeting “Strategic Thinking with Scenarios” Parks College of Aviation, presented by Solutia Inc. Tuesday, 15 January 2002 Boeing Bldg 100 Prologue Room Advanced Reservations Required of non-Boeing Employees. St. Louis University Anheuser Busch Auditorium, John Cook Hall
Larry Brase
