DOCSLIB.ORG

Northrop Grumman Corporation - Xetron 460 West Crescentville Rd Cincinnati, OH 45246

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Northrop Grumman Corporation - Xetron 460 West Crescentville Rd Cincinnati, OH 45246 UNITED STATES NUCLEAR REGULATORY COMMISSION Office of Federal and State Materials and Environmental Management Programs WASHINGTON, DC 20555 - 0001 February 1, 2013 Docket No. 030-38595 License No. 34-35023-xxE Mail Control 579545 David Lacey, CSP Northrop Grumman Corporation - Xetron 460 West Crescentville Rd Cincinnati, OH 45246 SUBJECT: NORTHROP GRUMMAN CORPORATION – XETRON, REQUEST FOR ADDITIONAL INFORMATION CONCERNING APPLICATION FOR A NEW LICENSE Dear Mr. Lacey: This refers to your response, dated January 24, 2013, to our letter regarding your new license application request. In order to continue our review, we need the following additional information: 1. Please submit a copy of your State of Ohio license as soon as possible. Without a possession license, we cannot issue you an Exempt Distribution License. 2. In our last letter, dated January 8, 2013, we asked for information regarding the radiation level and the method of measurement for the products. Item # 4 (1) in your response, dated January 24, 2013, stated that “the radiation level will be < 0.01 µCi’s from the source.” Please clarify how you measured the radiation level, and how you converted the radiation level measured to µCi units. 3. Item #4 (2) in your response stated that “Each device will contain < 0.01 µCi’s at the source;” and Item #3 in your response stated that “The quantity of Co60 has been modified to indicate that there will not be more that 1 µCi;” Additionally, your application, dated October 18, 2012, Page 3, section 6.2 shows that the sources Na-22, Cs-137 and Mn-54 are smaller (<) than 5 µCi (< 5 µCi). Please clarify what activity the sources to be used in your devices, will actually have: < 5 µCi or < 0.01 µCi? We will continue our review upon receipt of this information. If we do not receive a reply from you within 10 calendar days from the date of this letter, we will assume that you do not wish to pursue your application. D. Lacey Northrop Grumman Electronic Systems - Xetron 2 In accordance with 10 CFR 2.390 of NRC’s “Rules of Practice,” a copy of this letter will be available electronically for public inspection in NRC’s Public Document Room or from the Publicly Available Records (PARS) component of NRC’s document system (ADAMS). ADAMS is accessible from the NRC web site at http://www.nrc.gov/NRC/ADAMS/index.html (the Public Electronic Reading Room). If you have any questions, please feel free to contact me at (301) 415-7640 or by Email at [email protected]. Sincerely, /RA/ Shirley Xu, License Branch Division of Materials Safety and State Agreements Office of Federal and State Materials and Environmental Management Programs D. Lacey Northrop Grumman Electronic Systems - Xetron 3 In accordance with 10 CFR 2.390 of NRC’s “Rules of Practice,” a copy of this letter will be available electronically for public inspection in NRC’s Public Document Room or from the Publicly Available Records (PARS) component of NRC’s document system (ADAMS). ADAMS is accessible from the NRC web site at http://www.nrc.gov/NRC/ADAMS/index.html (the Public Electronic Reading Room). If you have any questions, please feel free to contact me at (301) 415-7640 or by Email at [email protected]. Sincerely, /RA/ Shirley Xu, License Branch Division of Materials Safety and State Agreements Office of Federal and State Materials and Environmental Management Programs DOCUMENT NAME: P:\E licenses\Northrop Grumman - new\Second RAI Letter Northrop 02012013.docx SUNSI Review Complete: SXu After declaring this document AAn Official Agency Record@ it will be released to the Public. To receive a copy of this document, indicate in the box: AC@ = Copy w/o attach/encl AE@ = Copy w/ attach/encl AN@ = No copy OFFICE FSME/LB N FSME/SAISB FSME/SAISB NAME SXu DATE 02/ 01 /2013 OFFICIAL RECORD COPY .
Load more

Recommended publications
  • Wing-Folding Mechanism of the Grumman Wildcat
    WING-FOLDING MECHANISM OF THE GRUMMAN WILDCAT An American Society of Mechanical Engineers Historic Mechanical Engineering Landmark DESIGNATION CEREMONY AT THE KALAMAZOO AVIATION HISTORY MUSEUM KALAMAZOO, MICHIGAN May 15, 2006 A Mechanical Engineering Landmark The innovative wing folding mechanism (STO-Wing), developed by Leroy Grumman in early 1941 and first applied to the XF4F-4 Wildcat, manufactured by the Grumman Aircraft Engineering Corporation, is designated an ASME Historic Mechanical Engineering Landmark. (See Plaque text on page 6) Grumman People Three friends were the principal founders of the Grumman Aircraft Engineering Corporation (Now known as Northrop Grumman Corporation), in January 1930, in a garage in Baldwin, Long Island, New York. (See photo of Leon Swirbul, William Schwendler, and Leroy Grumman on page 7) Leroy Randle (Roy) Grumman (1895-1982) earned a Bachelor of Science degree in mechanical engineering from Cornell University in 1916. He then joined the U. S. Navy and earned his pilot’s license in 1918. He was later the Managing Director of Loening Engineering Corporation, but when Loening merged with Keystone Aircraft Corporation, he and two of his friends left Loening and started their own firm — Grumman Aircraft Engineering Corporation. William T. Schwendler (1904-1978) earned a Bachelor of Science degree in mechanical engineering from New York University in 1924. He was reluctant to leave Long Island, so he chose to join Grumman and Swirbul in forming the new company. Leon A. (Jake) Swirbul (1898-1960) studied two years at Cornell University but then left to join the U.S. Marine Corps. Instrumental in the founding and early growth of Grumman, he soon became its president.
    [Show full text]
  • RQ-4/MQ-4 Global Hawk
    Northrop Grumman RQ-4 Global Hawk - Wikipedia, the free encyclopedia http://en.wikipedia.org/wiki/Northrop_Grumman_RQ-4_Global_Hawk From Wikipedia, the free encyclopedia The Northrop Grumman (formerly Ryan Aeronautical) RQ-4 Global Hawk (known as Tier II+ during RQ-4/MQ-4 Global Hawk development) is an unmanned aerial vehicle (UAV) used by the United States Air Force and Navy and the German Air Force as a surveillance aircraft. In role and operational design, the Global Hawk is similar to the Lockheed U-2, the venerable 1950s spy plane. It is a theater commander's asset to provide a broad overview and systematic target surveillance. For this purpose, the Global Hawk is able to provide high resolution synthetic aperture radar (SAR) – that can penetrate cloud-cover and sandstorms – and electro-optical/infrared (EO/IR) imagery at long range with long loiter times over target areas. It can An RQ-4 Global Hawk flying in 2007 survey as much as 40,000 square miles (103,600 square Role Surveillance UAV kilometers) of terrain a day. National origin United States It is used as a high-altitude platform for surveillance and Manufacturer Northrop Grumman security. Missions for the Global Hawk cover the spectrum of intelligence collection capability to support forces in First flight 28 February 1998 worldwide military operations. According to the United Status In service States Air Force, the capabilities of the aircraft allow more Primary users United States Air Force precise targeting of weapons and better protection of forces United States Navy through superior surveillance capabilities. NASA The Global Hawk costs about US$35 million to procure German Air Force each aircraft.[3] With development costs included, the unit Program cost US$1.635 billion[1] [4] cost rises to US$218 million.
    [Show full text]
  • Joint Effects Model (JEM) Briefing to CBIS
    Joint Program Executive Office for Chemical and Biological Defense Joint Effects Model (JEM) Briefing to CBIS January 2007 Tom Smith JEM Acquisition Program Manager [email protected] Joint Program Executive Office for Chemical and Biological Defense JEM Program Office Org Chart Tom Smith Tom Smith ArchitectureArchitecture Lead: Lead: Andy Andy Hill Hill ModelModel IPT/JSTO: IPT/JSTO: JEM APM JEM APM ProductProduct Support: Support: Gerald Gerald Slonaker Slonaker JohnJohn Hannan Hannan TestTest Lead: Lead: Marcus Marcus Fieger Fieger CDRCDR Stephanie Stephanie Hamilton Hamilton Dan Hallock Rick Fry Dan Hallock Rick Fry IncInc 1 1 DAPM DAPM LTLT Curt Curt Wall Wall IncInc 2 2 DAPM DAPM ProgramProgram Support: Support: PMOPMO Engineering Engineering Support: Support: SusanSusan Sullivan Sullivan RalphRalph Nebiker, Nebiker, Lead Lead EricEric Rial Rial KristinKristin Baird Baird Software Software NSWCNSWC Dahlgren: Dahlgren: Matt Matt Wolski Wolski Development Development PreonPreon Moore Moore Lead: Steve Twyman Lead: Steve Twyman L-3L-3 Titan Titan (JSTO): (JSTO): Ian Ian Sykes Sykes Northrop-Grumman Northrop-Grumman IEM:IEM: Serge Serge Olszanskyj Olszanskyj StevenSteven Stage Stage T&ET&E IPT IPT Lead: Lead: Russell Russell Brown Brown AccreditationAccreditation Agent: Agent: Mike Mike Metz Metz IV&VIV&V Lead: Lead: Brian Brian Boyle Boyle 2 Joint Program Executive Office for Chemical and Biological Defense Description • JEM is an ACAT III Program that will provide a single, validated capability to predict the transport and dispersion
    [Show full text]
  • F-16 Avionics Upgrades Driven by What You Can't See
    Friday, October 7, 2016 aviationtoday.com F-16 Avionics Upgrades Driven by What You Can't See By Woodrow Bellamy III [Avionics Magazine 10-07-2016] While the F-35 is starting to enter service and is the most technologically advanced fighter jet that the military aviation community has ever seen, its predecessor, which took its first flight more than 40 years ago, is still going strong, and avionics and other structural upgrades are giving nations that can't afford the F-35 a reason to keep flying, upgrading and even purchasing the F-16. Primarily, F-16 cockpits are being upgraded with glass, and some military operators are also adding Northrop Grumman's AN/APG-83 Active Electronically-Scanned Array (AESA) radar and an upgraded mission computer. The functionality for these technologies relies heavily upon some of the components that pilots and the general public can't see and usually pay no attention to, such as aerospace grade Ethernet cables that enable high speed data transmission. Between requests for avionics upgrades from the U.S. Air Force (USAF), South Korea, Taiwan, Singapore and others, Lockheed Martin expects to upgrade 500 in- service F-16s over the next 7 years, the aerospace and defense contractor told reporters at a press conference at the 2016 Farnborough International Airshow earlier this year. Among some of the more notable surface-level technologies available for the F-16 is the F-16V configuration, which replaces electro-mechanical cockpit instruments with a center pedestal display, an upgraded mission computer, a higher capacity Ethernet databus and other options.
    [Show full text]
  • NOC) Reported First Quarter 2021 Sales Increased 6 Percent to $9.2 Billion from $8.6 Billion in the First Quarter of 2020
    News Release Contact: Vic Beck (Media) 703-280-4456 (office) [email protected] Todd Ernst (Investors) 703-280-4535 (office) [email protected] Northrop Grumman Reports First Quarter 2021 Financial Results • Sales Increase 6 Percent to $9.2 Billion • EPS Increase to $13.43 • Excluding $1.1 Billion IT Services Sale Benefit, Transaction-adjusted EPS1 Increase 28 Percent to $6.57 • Net Awards Total $8.9 Billion • During the Quarter the Company Entered into a $2.0 Billion Accelerated Share Repurchase Agreement and Retired $2.2 Billion of Debt • Company Raises 2021 Sales Guidance to $35.3 to $35.7 billion and Transaction-adjusted EPS1 Guidance to $24.00 to $24.50 FALLS CHURCH, Va. – April 29, 2021 – Northrop Grumman Corporation (NYSE: NOC) reported first quarter 2021 sales increased 6 percent to $9.2 billion from $8.6 billion in the first quarter of 2020. First quarter 2021 net earnings increased 153 percent to $2.2 billion, or $13.43 per diluted share from $868 million, or $5.15 per diluted share, in the first quarter of 2020. First quarter 2021 results reflect the IT services divestiture effective as of Jan. 30, 2021, including a net after-tax benefit of $1.1 billion, or $6.86 per diluted share. "First quarter results are a strong start to the year and a continuation of the positive performance we delivered in 2020," said Kathy Warden, chairman, chief executive officer and president. "Our team booked competitive new awards and generated higher sales, earnings and cash. These strong operational results, coupled with portfolio shaping, enabled value-creating capital deployment for our shareholders.
    [Show full text]
  • Landmark Flight Brings Program One Step Closer to Demonstrating Autonomous Aerial Refueling Between Two Unmanned Aircraft
    Photo and Video Release -- Landmark Flight Brings Program One Step Closer to Demonstrating Autonomous Aerial Refueling Between Two Unmanned Aircraft March 9, 2011 SAN DIEGO, Mar 9, 2011 (GlobeNewswire via COMTEX) -- On Jan. 21, Northrop Grumman Corporation (NYSE:NOC), Defense Advanced Research Projects Agency (DARPA) and NASA Dryden Flight Research Center took a major step toward demonstrating autonomous aerial refueling between two unmanned, high altitude aircraft, an operation never before performed. Photos and video accompanying this release are available at: http://www.irconnect.com/noc/press/pages/news_releases.html?d=215774 In a key risk reduction flight test, Northrop Grumman's Proteus test aircraft and a NASA Global Hawk flew as close as 40 feet apart at an altitude of 45,000 feet, an industry-setting record. The flight test was conducted in the challenging high altitude environment required for refueling of high altitude long endurance (HALE) unmanned aircraft systems (UAS). Wake turbulence between the two aircraft as well as engine performance and flight control responsiveness in the stratosphere were evaluated. Simulated breakaway maneuvers were also conducted. The January flight was key to reducing risks as the program prepares for autonomous aerial refueling of two Global Hawks in the spring of 2012. "Demonstrating close formation flight of two high altitude aircraft, whether manned or unmanned, is a notable accomplishment," said Geoffrey Sommer, KQ-X program manager at Northrop Grumman Aerospace Systems sector. "When you add autonomous flight of both aircraft into the mix, as we will do later in the KQ-X program, you gain a capability that has mission applications far beyond just aerial refueling." The $33 million DARPA KQ-X program will demonstrate autonomous fuel transfer between two Global Hawks, enabling flights of up to one week endurance.
    [Show full text]
  • SUPPLIER STANDARDS of BUSINESS CONDUCT SUPPLIER STANDARDS of BUSINESS CONDUCT Our Values
    SUPPLIER STANDARDS OF BUSINESS CONDUCT SUPPLIER STANDARDS OF BUSINESS CONDUCT Our Values We, the women and men of Northrop Grumman, We act with INTEGRITY in all we do... are guided by the following Values. We want our decisions and actions to demonstrate these We are each personally accountable for the Values. We believe that putting our Values highest standards of behavior, including honesty into practice creates long-term benefits for and fairness in all aspects of our work. We fulfill shareholders, customers, employees, suppliers our commitments as responsible citizens and and the communities we serve. employees. We treat customers and company resources with the respect they deserve. We We take responsibility for QUALITY... comply with all applicable laws and regulations. Our products and services are “best in class” We value PEOPLE... in terms of value received for money paid. We deliver excellence, strive for continuous We treat one another with respect and take improvement and respond vigorously to change. pride in the significant contributions that come Each of us is responsible for the quality of from the diversity of individuals and ideas. Our whatever we do. continued success requires us to provide the education and development needed to help our We deliver CUSTOMER SATISFACTION... people grow. We are committed to openness and trust in all relationships. We are dedicated to satisfying our customers. We believe in respecting our customers, We focus on SAFETY… listening to their requests and understanding We work to protect the health and well-being their expectations. We strive to exceed their of our employees and to provide our customers expectations in affordability, quality and with high quality, reliable and safe products.
    [Show full text]
  • NORTHROP GRUMMAN 2019 ANNUAL REPORT B-21 Artist Rendering
    NORTHROP GRUMMAN 2019 ANNUAL REPORT 2019 ANNUAL GRUMMAN NORTHROP B-21 Artist Rendering 2019Annual Report NORTHROP GRUMMAN 2019 ANNUAL REPORT Selected Financial Highlights $3,969 $3,780 $33,841 $3,218 $30,095 $26,004 $21.21 $21.33 $14.04 17 18 19 17 18 19 17 18 19 Sales Operating Income Mark-To-Market (MTM) - ( $ in millions ) ( $ in millions ) Adjusted Diluted EPS* $5.16 $4.70 $4,297 $3.90 $3,827 $3,033 $2,613 $2,578 $1,685 17 18 19 17 18 19 17 18 19 Cash Dividends Cash Provided by Free Cash Flow* Declared Operating Activities ($ in millions) (Per Common Share) ($ In Millions) *Non-GAAP financial metric. For more information, including a definition, reconciliation to the most directly comparable GAAP measure and why we believe this measure may be useful to investors, please refer to “Use of Non-GAAP Financial Measures” at the back of this Annual Report. Dear Fellow Shareholders In 2019, we delivered strong financial results while remaining steadfast in our dedication to performance and positioning Northrop Grumman for the future. In addition, we successfully integrated Orbital ATK in its first full year of operations within our company. We executed a profitable growth strategy for our company, to include launching domain-focused campaigns that leverage the power of our diverse portfolio and align our offerings with our customers’ current and emerging needs. We focused on areas such as space, cyber, strategic missiles and all- domain command and control—areas that are the highest priorities of our global customers. These campaigns laid the groundwork for the organization changes to our operating sectors, which we announced in September.
    [Show full text]
  • Aircraft Designations and Popular Names
    Chapter 1 Aircraft Designations and Popular Names Background on the Evolution of Aircraft Designations Aircraft model designation history is very complex. To fully understand the designations, it is important to know the factors that played a role in developing the different missions that aircraft have been called upon to perform. Technological changes affecting aircraft capabilities have resulted in corresponding changes in the operational capabilities and techniques employed by the aircraft. Prior to WWI, the Navy tried various schemes for designating aircraft. In the early period of naval aviation a system was developed to designate an aircraft’s mission. Different aircraft class designations evolved for the various types of missions performed by naval aircraft. This became known as the Aircraft Class Designation System. Numerous changes have been made to this system since the inception of naval aviation in 1911. While reading this section, various references will be made to the Aircraft Class Designation System, Designation of Aircraft, Model Designation of Naval Aircraft, Aircraft Designation System, and Model Designation of Military Aircraft. All of these references refer to the same system involved in designating aircraft classes. This system is then used to develop the specific designations assigned to each type of aircraft operated by the Navy. The F3F-4, TBF-1, AD-3, PBY-5A, A-4, A-6E, and F/A-18C are all examples of specific types of naval aircraft designations, which were developed from the Aircraft Class Designation System. Aircraft Class Designation System Early Period of Naval Aviation up to 1920 The uncertainties during the early period of naval aviation were reflected by the problems encountered in settling on a functional system for designating naval aircraft.
    [Show full text]
  • Northrop Grumman
    Whereas: As the world’s fourth-largest defense company, Northrop Grumman’s most severe human rights impacts are likely to result from the use of its products and services, such as controversial arms trade, military training, nuclear weapons, and border surveillance systems. Business relationships with the U.S. Government and foreign governments whose activities may be linked to human rights violations may expose Northrop Grumman to legal, financial, and reputational risks. Under the UN Guiding Principles on Business and Human Rights (UNGPs), companies have a responsibility to respect human rights which is distinct from the duties of states. The high likelihood of severe impacts linked to business in conflict-affected and high-risk areas warrants heightened due diligence. A 2019 Amnesty International report found that the defense industry is failing to carry out effective human rights due diligence. This requires conducting human rights impact assessments to identify and evaluate the actual and potential adverse human rights impacts of the company’s business activities.1 The findings from the impact assessments should inform business decision making, prevention and mitigation efforts, and public disclosure. Northrop Grumman has contracts with or supplies weapons to multiple states engaged in conflict, including Saudi Arabia, the United Arab Emirates, India, Israel, Morocco, and Colombia.2 Northrop Grumman is one of the Saudi Arabian Armed Forces’s largest defense partners, supplying weapons since 1971, and is heavily involved in military training.3 A 2020 report by the UN Human Rights Council alleges that Saudi-led coalition airstrikes in Yemen “may amount to war crimes” and the supply of weapons from the U.S.
    [Show full text]
  • NORTHROP GRUMMAN CORPORATION (Exact Name of Registrant As Specified in Its Charter)
    UNITED STATES SECURITIES AND EXCHANGE COMMISSION Washington, D.C. 20549 FORM 10-K x ANNUAL REPORT PURSUANT TO SECTION 13 OR 15(d) OF THE SECURITIES EXCHANGE ACT OF 1934 For the fiscal year ended December 31, 2002 ¨ TRANSITION REPORT PURSUANT TO SECTION 13 OR 15(d) OF THE SECURITIES EXCHANGE ACT OF 1934 For the transition period from Commission file number to 1-16411 NORTHROP GRUMMAN CORPORATION (Exact name of registrant as specified in its charter) DELAWARE 95-4840775 (State or other jurisdiction of (I.R.S. Employer Identification incorporation or organization) Number) 1840 Century Park East, Los Angeles, California 90067 www.northropgrumman.com (Address of principal executive offices and internet site) (310) 553-6262 (Registrant’s telephone number, including area code) Securities registered pursuant to section 12(b) of the Act: Title of each class Name of each exchange on which registered Common Stock, $1 par value New York Stock Exchange Pacific Exchange Series B Convertible Preferred Stock New York Stock Exchange 7.25% Equity Security Units New York Stock Exchange Securities Registered pursuant to Section 12(g) of the Act: None Indicate by check mark whether the Registrant (1) has filed all reports required to be filed by Section 13 or 15(d) of the Securities Exchange Act of 1934 during the preceding 12 months (or such shorter period that the Registrant was required to file such reports), and (2) has been subject to such filing requirements for the past 90 days. Yes x No ¨ Indicate by check mark whether the Registrant is an accelerated filer (as defined in Exchange Act Rule 12b-2).
    [Show full text]
  • SQAR DEFINITIONS and PROJECT ID GUIDE
    Only the online system has the current version. Verify hard copy against online system before use. SQAR DEFINITIONS and PROJECT ID GUIDE SG - 0140 Revision Date: 05/06/2014 Approved (Signature on file) Joseph F. Jackson Director, Supplier Quality Aerospace Systems Sector 1 Only the online system has the current version. Verify hard copy against online system before use. Revision Record The latest issue of this document may be confirmed by viewing the OASIS web site: https://oasis.northgrum.com Revision Date Revision Date Revision Date New 11/23/05 Date 1/14/09 Date 1/02/12 Date 5/15/06 Date 4/13/09 Date 1/11/13 Date 2/05/07 Date 8/01/09 Date 7/18/13 Date 3/17/08 Date 12/06/10 Date 10/21/13 Date 5/09/08 Date 1/26/11 Date 5/6/14 Date 8/18/08 Date 5/05/11 Date 9/04/08 Date 6/20/11 Date 10/20/08 Date 8/18/11 Note: All revisions are in Blue font. Primary Change Summary • Identified FAR 2.101 paragraphs that are applicable to COTs and Modified COTs • Added clarification to SQAR Code Q and note 2 Only the online system has the current version. Verify hard copy against online system before use. SQAR CODE DEFINITIONS SQAR Code A – Raw Materials Associated with metallic (ferrous and non-ferrous) or nonmetallic materials that are controlled by a material specification, i.e., sheet, bar/plate/round stock, ingots, extrusions, tubing, bare wire, fiberglass, graphite, Kevlar, plastics, rubber sheets, etc.
    [Show full text]