Jump to content

Recommended Posts

  • Publishers
Posted
Hall of Fame Plaque with Portrait.

Citation

Bruce Lundin started in 1943 as a mechanical engineer working on the problem’s of piston engines, but quickly moved to the emerging field of jet engines. A constant advocate for the expansion and evolution of work done at the center and also within the agency, he was one of the most vocal in advocating for the NACA’s leadership in space-related activities. His 1957 paper “Some Remarks on a future policy and course of action for the NACA would go on to become the basic template for which NASA’s structure would be based, with the NACA serving as its core. From 1969 to 1977, he served as the center director, navigating the center through one of its most difficult periods.

Biography

Bruce Lundin’s 35-year career began in 1943 when the National Advisory Committee for Aeronautics (NACA) lab that would become the NASA Glenn Research Center was still known as the Aircraft Engine Research Laboratory. At first Lundin worked on engine cooling and heat transfer for piston engines, but almost immediately he was thrown into the secret new field of jet engines. This work between 1943 and 1946 yielded concepts such as the afterburner, variable-area nozzle, and reverse thruster— components that remain basic elements of many modern jet aircraft.

At only 33 years old, Lundin was promoted to chief of the Engine Research Division (1952 to 1958), overseeing full-scale engine testing in simulated flight conditions. The research contributed significantly to the performance of modern commercial and military aircraft. During this period, Lundin also was responsible for establishing requirements for future aircraft and ramjet engines. In this role, he advocated the expansion of the Lab’s research to spacecraft propulsion. Although others at the lab were also interested in space, he was among the most vocal. Lundin felt passionately that the NACA should not only participate in, but coordinate, all space-related research. The launch of Sputnik in October 1957 resulted in widespread calls for the establishment of a national space program.

One Sunday afternoon in December 1957, Lundin drafted his seminal “Some Remarks on a Future Policy and Course of Action for the NACA.” This document outlined in detail the formation of a new space agency based on the NACA structure. It advocated a broad range of space research to be coordinated by the NACA, warned against concentrating on any single project, and called for the establishment of a new laboratory dedicated to space. Lundin’s report, updated by associate director Abe Silverstein and renamed “Lewis Laboratory Opinion of a Future Policy and Course of Action for the NACA,” was presented to NACA Headquarters and served as the basic template for NASA.

With the establishment of NASA in 1958, Lundin was named associate director of the NASA Lewis Research Center. He was responsible for planning and directing research for the entire center. Under Lundin’s guidance, Lewis expanded its space propulsion and power research with the development of electric-, solar-, and nuclear-power-generating systems for spacecraft and high-energy chemical, electric, and nuclear propulsion systems.

Lundin was a strong advocate for Lewis’ involvement in program management. There was some controversy regarding the former NACA lab’s being too involved in development. When Center Director Abe Silverstein reorganized the center in 1961 in an effort to segregate the research and development work, Lundin was put in charge of all Lewis development work. This would prove to be a substantial role with the addition of the Centaur, Agena, and M–1 rocket programs the following year. The project management of launch vehicles would become one of the center’s greatest successes.

In 1969, Bruce Lundin became center director and navigated the center through its most difficult period. The center’s budget was significantly slashed as the Apollo program wound down. Layoffs occurred and facilities were mothballed. In an effort to boost morale and generate staff support for Lewis’s goals, Lundin instituted the Lewis Acquainting Wage Board, Administrative and Research Employees with New Endeavors of Special Significance (AWARENESS) program in 1974. Talks by Lundin, frequent ceremonies, film specials, and newspaper articles were used to recognize Lewis’s accomplishments, programs, and staff.

Lundin sought new areas of research and increased Lewis’s research efforts on energy-efficient engines and noise reduction for the airline industry. He was convinced that the staff’s long history of energy-conversion work for space applications could be applied to new methods of providing clean, renewable energy. In the midst of the oil embargo, Lewis undertook a wide range of alternative energy programs. One of the most successful efforts was a wind energy program in partnership with what is today the Department of Energy. This program set a precedent for what has become an entire wind turbine industry. During this time, Lewis also developed solar-powered electric systems for remote areas and villages, batteries for electric automobiles, and the efficient Stirling automotive engine. Lundin was able to successfully mold Lewis into a leading energy-conversion laboratory.

Lewis’s greatest achievements during Lundin’s tenure were in the Launch Vehicles Division. The group was responsible for not only maintaining and updating the Centaur rocket but for integrating the payload with the Atlas and Titan boosters. Over 30 high-profile missions were launched during Lundin’s term, including Pioneer 10, which was the first spacecraft to explore the outer solar system; Mariners 6 and 7, which mapped Mars; Mariner 10, which orbited Venus and Mercury; and the Viking spacecraft, which placed two rovers on the Mars surface.

Lundin retired in 1977 after a long, distinguished career as an engineer, manager, and director of major programs. His efforts provided a firm foundation for subsequent achievements in aeronautics, space, and energy. He continually demonstrated outstanding leadership in planning research, organizing resources for effective and timely execution, and inspiring extraordinary efforts from his staff to solve complex problems. Bruce Lundin passed away at the age of 86 on January 24, 2006.

Related Documents

Photographs

Man seated in office.
Center Director Bruce Lundin in his office in the Administration Building (1/4/1974).
NASA
Man standing uin front of display.
Bruce Lundin with an exhibit on jet propulsion for a tour by the Institute of Aeronautical Science (3/26/1946).
NASA
Four men seated at conference table.
Bruce Lundin and Abe Silverstein host K.S. Thue and F.H. Keast of the Avro Company (5/27/1954).
NASA
Man presenting award to another man.
Center Director Abe Silverstein presents Bruce Lundin with a 40-Year Service Award (10/22/1965).
NASA
Man holding up gift.
Send off for Bruce Lundin at the Guerin House before he transferred to NASA Headquarters in May 1968.
NASA
Two men examining award.
Lundin and Ed Richley, Head of Operations Analysis and Planning, examine a Lewis Awareness award (6/22/1972).
NASA
Four men standing in front of flag.
Lewis Director Bruce Lundin with Apollo 17 astronauts Gene Cernan, Ron Evans, and Harold Schmidt in the hangar (2/16/1973).
NASA
Man seated at desk in office.
Center Director Bruce Lundin in his office in the Administration Building (9/5/1975).
NASA

View the full article

Join the conversation

You can post now and register later. If you have an account, sign in now to post with your account.
Note: Your post will require moderator approval before it will be visible.

Guest
Reply to this topic...

×   Pasted as rich text.   Paste as plain text instead

  Only 75 emoji are allowed.

×   Your link has been automatically embedded.   Display as a link instead

×   Your previous content has been restored.   Clear editor

×   You cannot paste images directly. Upload or insert images from URL.

  • Similar Topics

    • By NASA
      NASA Astronaut Bruce McCandless II approaches his maximum distance from the Earth-orbiting Space Shuttle Challenger in this 70mm photo from Feb. 7, 1984. While testing out the nitrogen-propelled, hand-controlled back-pack device called the manned maneuvering unit (MMU) for the first time, McCandless’s fellow crewmembers aboard the reusable vehicle photographed him. The MMU allowed crews to move outside of the cargo bay and perform activities away from the safety of the spacecraft. “It may have been one small step for Neil,” he proclaimed, “but it’s a heck of a big leap for me.”
      Learn how this and other iconic photos from the STS-41B mission came to be.
      Image Credit: NASA
      View the full article
    • By NASA
      Bruce Askins Growing up, Bruce Askins was passionate about space and oceanography. His desire to explore other worlds always made him want to be an astronaut. Though he did not become an astronaut, Askins has built a 42-year career at NASA, and, as the infrastructure management lead for NASA’s SLS (Space Launch System) Program at the agency’s Marshall Space Flight Center in Huntsville, Alabama, Askins is an integral part for the next generation of explorers.
      Askins and his team are the gatekeepers and protectors of data and responsible for both cyber- security and physical security for the SLS Program. Under Askins’ leadership, his team ensures all data is stored properly, that information about the rocket shared outside NASA  is done with proper data markings, and access is given to those that need it.
      Askins wasn’t always familiar with the world of infrastructure and cyber security. As a mechanical engineering graduate from the University of Alabama in Huntsville, Askins began his career as part of NASA’s internship program. He considered himself imaginative, or “creatively driven,” which is why Askins originally pursued a career at NASA.
      “I always loved the design aspect of my early position in special test equipment,” Askins says. “Back then I drew everything by hand with a pencil before eventually transitioning to computers.”
      His creativity and interest in underwater worlds, along with his scuba diver certification, led him to have a hand in designing early test elements for NASA’s Hubble Space Telescope. At the Neutral Buoyancy Simulator, a former underwater training facility at Marshall, Askins interacted with a crew of astronauts supporting Hubble and designed the flight simulation hardware used for crew training on the Canadarm2 robotic arm that is still a part of the International Space Station today.
      Askins has been a part of the NASA family for almost half a century and is thrilled to be a part of the next era of space exploration to the Moon under Artemis.
      “To explore is one of the greatest things that we can all do, and with the Artemis Generation the sky’s the limit,” Askins said.
      SLS is part of NASA’s backbone for deep space exploration, along with the Orion spacecraft, advanced spacesuits and rovers, the Gateway in orbit around the Moon, and commercial human landing systems. SLS is the only rocket that can send Orion, astronauts, and supplies to the Moon in a single launch.
      Check out some of our other “I am Artemis” features.  
      View the full article
    • By NASA
      4 min read
      Webb Telescope’s Marcia Rieke Awarded Catherine Wolfe Bruce Gold Medal
      Dr. Marcia Rieke, principal investigator for the Near-Infrared Camera on NASA’s James Webb Space Telescope is the Astronomical Society of the Pacific’s (ASP) 2023 recipient of its most prestigious award. ASP’s Catherine Wolfe Bruce Gold Medal honors Rieke, a Regents Professor of astronomy and Elizabeth Roemer Endowed Chair, Steward Observatory, at the University of Arizona. Rieke’s award and achievements will be recognized at the ASP Awards Gala on Saturday, Nov. 11, in Redwood City, California.
      Marcia Rieke, Regents’ Professor of Astronomy at the University of Arizona and principal investigator for the near-infrared camera on the James Webb Space Telescope.Credit: George Rieke / UAZ Groundbreaking Contributions
      Rieke’s research has focused on infrared observations of the center of the Milky Way and high redshift galaxies in the early universe. Rieke is considered by many to be one of the “founding mothers of infrared astronomy,” and it is for her groundbreaking contributions to astronomical research at these wavelengths that she is being recognized and celebrated.   
      “I owe a debt of gratitude to my team that made all this possible. I am humbled that I’m on a list that includes the founders of infrared astronomy, Gerry Neugebauer and Frank Low,” said Rieke.
      Rieke served as deputy principal investigator for the Near Infrared Camera and Multi-Object Spectrometer (NICMOS) on NASA’s Hubble Space Telescope and co-investigator for the multiband imaging photometer on NASA’s retired Spitzer Space Telescope. Rieke was also involved with several infrared ground-based observatories, including the Multiple Mirror Telescope Observatory in Arizona. 
      Rieke’s nominators credit her leadership for the success of Webb’s Near-Infrared Camera (NIRCam). As one of her nominators stated, “NIRCam was the Webb program’s most challenging instrument development effort. The instrument’s outstanding performance is due largely to the outstanding performance of its principal investigator. Marcia’s consistent focus, diligence, and ‘lead from the front’ approach under extremely difficult technical and programmatic circumstances presents an example for others to follow.”
      Marcia Rieke, Regents’ Professor of Astronomy at the University of Arizona and principal investigator for the near-infrared camera on the James Webb Space Telescope.Credit: George Rieke / UAZ Rieke has authored 310 refereed publications, which have over 30,000 citations. Her deep knowledge and expertise were put into service as vice chair for program prioritization for the Astro 2010 Decadal Survey Committee’s report, “New Worlds, New Horizons.” Her landmark contributions to astronomical research and instrument development, as well as her service to public policy and public outreach, have been recognized nationally. She was elected a fellow of the American Academy of Arts and Sciences in 2007, a fellow of the National Academy of Sciences in 2012, and a legacy fellow of the American Astronomical Society in 2020. Rieke has also been the recipient of numerous prestigious awards, including the NASA Distinguished Public Service Medal in 2023 for her contribution to the field of astronomy and key role in the development of cutting-edge instruments for Webb.
      About the Catherine Wolfe Bruce Gold Medal
      ASP is an international non-profit scientific and educational organization, founded in 1889, that works to increase understanding and appreciation of astronomy.
      The Catherine Wolfe Bruce Gold Medal is the organization’s highest award given annually to a professional astronomer in recognition of a lifetime of outstanding achievement and contributions to astrophysics research. It was established by Catherine Wolfe Bruce, an American philanthropist and patroness of astronomy.   
      The James Webb Space Telescope is the world’s largest, most powerful, and most complex space science telescope ever built. Webb is solving mysteries in our solar system, looking beyond to distant worlds around other stars, and probing the mysterious structures and origins of our universe and our place in it. Webb is an international program led by NASA with its partners, ESA (European Space Agency) and the Canadian Space Agency.
      For more information about NASA’s Webb telescope visit: www.nasa.gov/webb
      Media Contact
      Rob Gutro
      NASA’s Goddard Space Flight Center, Greenbelt, Maryland
      Keep Exploring Discover More Topics From NASA
      James Webb Space Telescope
      Webb is the premier observatory of the next decade, serving thousands of astronomers worldwide. It studies every phase in the…
      Hubble Space Telescope
      Since its 1990 launch, the Hubble Space Telescope has changed our fundamental understanding of the universe.
      Infrared Waves
      What are Infrared Waves? Infrared waves, or infrared light, are part of the electromagnetic spectrum. People encounter Infrared waves every…
      The Electromagnetic Spectrum Video Series & Companion Book
      Share
      Details
      Last Updated Nov 14, 2023 Editor Marty McCoy Related Terms
      Goddard Space Flight Center James Webb Space Telescope (JWST) People of Goddard View the full article
  • Check out these Videos

×
×
  • Create New...