AstroFlight Sunrise explained

The AstroFlight Sunrise was an uncrewed experimental electric aircraft technology demonstrator and the first aircraft to fly on solar power.[1]

First conceived in November 1970, the Sunrise first flew on 4 November 1974 from Bicycle Lake, a dry lakebed on the Fort Irwin Military Reservation, California, United States. The first prototype was destroyed on its 28th flight by turbulence. The improved Sunrise II flew the following year.[2] [3] [4]

Development

While working as an engineer at Hughes Aircraft, Roland Boucher began design work on an electric-powered aircraft concept in November 1970, calculating that the contemporary nickel-cadmium batteries available would be sufficient to sustain flight using a radio-control model glider. Early experimental projects proved the concept sound and in 1973 Boucher turned his attention to the creation of a high-altitude solar-powered aircraft that would have unlimited endurance.

Boucher explained the project to his superiors at Hughes Aircraft in 1972 and after reviewing it, the company released the project to Boucher in 1973. Boucher took a leave of absence from Hughes to pursue the project and joined his brother, Bob Boucher, at AstroFlight, a small model airplane manufacturer in Venice, California. After successfully flying an electric drone carrying a 50NaN0 payload on a DARPA project for Northrop Corporation, they then moved onto Project Sunrise.[5]

Using commercially available off-the-shelf solar cells producing only 10% efficiency, Boucher calculated that his project would need to be able to fly on about 0.51NaN1. The aircraft was envisioned as an uncrewed sailplane that would have an operating altitude of 730000NaN0, powered by a single Samarium–cobalt magnet electric motor, the first motor of its kind in the world. The aircraft would use no batteries and, instead, would descend at night from its operating altitude to about 100000NaN0 at dawn, before solar energy was once again available for climb.[6] [7] [8]

Boucher saw the Sunrise as a proof of concept for a follow on aircraft that would be capable of remaining aloft for months at an altitude of 1000000NaN0.[9]

Project Sunrise was funded by DARPA commencing in January 1974 and administered by Lockheed Aircraft Corporation of Sunnyvale, California, with the contract specifying a "proof of concept aircraft powered solely by incident sunlight on the wing surfaces."

Roland Boucher took on the task of the structural design, aerodynamics, telemetry, control and navigation. He also designed the integration of the solar panel, electric motors, gearbox and the propeller. He selected an Eppler 387 airfoil for the wing. The solar cells were 51NaN1 round commercial units provided by Heliotech. The actual airframe was constructed by a team under expert model builder Phil Bernhardt.

The Sunrise's wing span was 320NaN0 and the aircraft had a gross weight of 220NaN0. The wing loading was a very low 4 ounces per square foot (0.011 kg/sq m). The aircraft structure was built from spruce, balsa and maple. Due to their roughness the solar cells were only mounted on the aft two-thirds of the wing's upper surface.

The wing spars were built from spruce spar caps with maple doublers at all attachment points and two NaN0NaN0 balsa shear webs attached to NaNto balsa strips on the wing spars. The ribs were made from NaN0NaN0 balsa. This construction resulted in a balsa spar box with tapered spruce caps. The leading edge was covered with NaN1NaN1 balsa to form a leading edge D spar. The trailing edge was formed by two 20NaN0 wide NaN1NaN1 sheets forming a triangle with NaNto vertical spar sections in between the ribs. The covering was 1/2 mil Mylar. The 320NaN0 span wing weighed 50NaN0 and was capable of loads up to 100 pounds.[10]

Control was via an S & O Radio designed and built telemetry transmitter and receiver. The standard S&O six channel radio had channels for elevator, rudder, motor on and off and solar cell operating mode. The solar cells could be set for either series or parallel operation. The telemetry functions provided gave data on motor current, motor voltage, motor RPM, airspeed and two heading references from a sun compass for navigation.

Operational history

Flight testing commenced in 1974 at Bicycle Lake, California. The first flights were conducted on battery power, using a bungee cord launch to 200NaN0. On its first flight the aircraft reached 500 feet, before returning for a landing.

A lack of sunny days delayed flight testing, but in all, 28 flights were made. The Sunrise would climb slowly at first until its solar cells cooled down and their efficiency increased. On its 28th flight the aircraft was destroyed when it was flown too close to a cumulus cloud at about 80000NaN0 and the associated turbulence broke the aircraft's structure.

Aftermath

The success of the flights that had been completed allowed Boucher to state:

DARPA and Lockheed proposed a follow-on design to the Sunrise to be powered at night by batteries instead of just gliding. Roland Boucher designed the second aircraft using higher efficiency solar panels that were more aerodynamically smooth.[11]

Roland Boucher had become physically exhausted from his work on the initial Sunrise and he suffered from congestive heart failure. He was admitted to intensive care at Santa Monica Hospital. While in hospital he resigned from AstroFlight and sold his interests in the company to his brother Bob Boucher who continued work on the second Sunrise aircraft. After recuperating, Roland Boucher returned to work at Hughes Aircraft on classified military programs.

The Sunrise II first flew on 27 September 1975 from Nellis AFB, near Las Vegas, Nevada.

Variants

Project Sunrise Prototype #1 (Sunrise I)
  • Initial aircraft first flown in 1974
    Project Sunrise Prototype #2 (Sunrise II)
  • 1975 improved version for high altitude flight demonstration [12]

    External links

    Notes and References

    1. Web site: Project Sunrise pg 1. 2009-09-23. Boucher. Roland. n.d.. 2015-03-13. https://web.archive.org/web/20150313145542/http://www.projectsunrise.info/First_Solar_Powered_Aircraft.html. dead.
    2. Web site: Project Sunrise pg 13. 2009-09-23. Boucher. Roland. n.d.. 2011-07-21. https://web.archive.org/web/20110721231813/http://www.projectsunrise.info/Flight__Tests.html. dead.
    3. Book: Newcome, Laurence R.. Unmanned aviation: a brief history of unmanned aerial vehicles. 2009-09-23. 2004.
    4. Web site: Solar-Power Research and Dryden. 2009-09-15. Curry . Marty. March 2008. https://web.archive.org/web/20091028093131/http://www.nasa.gov/centers/dryden/news/FactSheets/FS-054-DFRC.html. 28 October 2009 . live.
    5. Web site: Project Sunrise pg 9. 2009-09-23. Boucher. Roland. n.d.. 2011-07-21. https://web.archive.org/web/20110721233521/http://www.projectsunrise.info/Page_9.html. dead.
    6. Web site: Project Sunrise pg 2. 2009-09-23. Boucher. Roland. n.d.. 2009-12-07. https://web.archive.org/web/20091207083039/http://www.projectsunrise.info/The_Concept.html. dead.
    7. Web site: Project Sunrise pg 4. 2009-09-23. Boucher. Roland. n.d.. 2011-07-21. https://web.archive.org/web/20110721233718/http://www.projectsunrise.info/Page_4.html. dead.
    8. Web site: Project Sunrise pg 11. 2009-09-23. Boucher. Roland. n.d..
    9. Web site: Project Sunrise pg 8. 2009-09-23. Boucher. Roland. n.d.. 2011-10-09. https://web.archive.org/web/20111009003446/http://www.projectsunrise.info/Construction.html. dead.
    10. Web site: Project Sunrise pg 10. 2009-09-23. Boucher. Roland. n.d.. 2011-10-09. https://web.archive.org/web/20111009003519/http://www.projectsunrise.info/Page_10.html. dead.
    11. Web site: Project Sunrise pg 16. 2009-09-23. Boucher. Roland. n.d.. 2011-10-09. https://web.archive.org/web/20111009003524/http://www.projectsunrise.info/Page_16.html. dead.
    12. AIAA-84-1429 History of Solar Flight Robert J. Boucher