DOCSLIB.ORG

Russia's Kliper Shuttle to Be Launched in 2015 2 February 2006

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Russia's Kliper Shuttle to Be Launched in 2015 2 February 2006 Russia's Kliper Shuttle To Be Launched In 2015 2 February 2006 in February 2003, killing all seven astronauts on board. Flights only resumed in July last year, when Discovery completed a mission successfully. Copyright 2006 by Space Daily, Distributed United Press International A new reusable space craft designed in Russia will start delivering crews and supplies to the world's sole civilian orbital station in 2015, the head of Russia's leading space corporation said Wednesday, reports RIA Novosti. The General Director and chief designer of Energia, Nikolai Sevastyanov said the Kliper would replace the Soyuz spaceship, the veteran workhorse of the Russian and Soviet space programs, for taking crews and supplies to the International Space Station (ISS). RIA Novosti reports that the first unmanned flight of the Kliper has been set for 2012, and the first manned flight has been scheduled for 2013, according to Sevostyanov. The six-man craft will be able to double the current number of crewmembers being taken to the ISS. The new shuttle has a number of advantages. For example, it will be equipped with an orbital transfer vehicle and a container with a capacity of 12 metric tons, compared with the Soyuz's two-ton capacity. This will cut transportation costs considerably, Sevastyanov said. Russia has borne the main burden of bringing crews and cargoes to the ISS in recent years, as the United States was forced to ground its shuttle fleet for two and half years after Columbia crashed 1 / 2 APA citation: Russia's Kliper Shuttle To Be Launched In 2015 (2006, February 2) retrieved 2 October 2021 from https://phys.org/news/2006-02-russia-kliper-shuttle.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. 2 / 2 Powered by TCPDF (www.tcpdf.org).
Load more

Recommended publications
  • Annual Report of S.P
    ANNUAL REPORT OF S.P. KOROLEV ROCKET AND SPACE PUBLIC CORPORATION ENERGIA FOR 2019 This Annual Report of S.P.Korolev Rocket and Space Public Corporation Energia (RSC Energia) was prepared based upon its performance in 2019 with due regard for the requirements stated in the Russian Federation Government Decree of December 31, 2010 No. 1214 “On Improvement of the Procedure to Control Open Joint-Stock Companies whose Stock is in Federal Ownership and Federal State Unitary Enterprises”, and in accordance with the Regulations “On Information Disclosure by the Issuers of Outstanding Securities” No. 454-P approved by the Bank of Russia on December 30, 2014 Accuracy of the data contained in this Annual Report, including the Report on the interested-party transactions effected by RSC Energia in 2019, was confirmed by RSC Energia’s Auditing Committee Report as of 01.06.2020. This Annual Report was preliminary approved by RSC Energia’s Board of Directors on August 24, 2020 (Minutes No. 31). This Annual Report was approved at RSC Energia’s General Shareholders’ Meeting on September 28, 2020 (Minutes No 40 of 01.10.2020). 2 TABLE OF CONTENTS 1. BACKGROUND INFORMATION ABOUT RSC ENERGIA ............................. 6 1.1. Company background .........................................................................................................................6 1.2. Period of the Company operation in the industry ...............................................................................6 1.3. Information about the purchase and sale contracts for participating interests, equities, shares of business partnerships and companies concluded by the Company in 2019 ..............................................7 1.4. Information about the holding structure and the organizations involved ...........................................8 2. PRIORITY DIRECTIONS OF RSC ENERGIA OPERATION ........................ 11 2.1.
    [Show full text]
  • Tokyo Shortly to Decide on Participation in Russian Kliper Project 14 October 2005
    Tokyo Shortly To Decide On Participation In Russian Kliper Project 14 October 2005 Tokyo intends to decide already this year on its participation in the Russian project to build a non- expendable manned spacecraft, which will be called Kliper. It is expected to replace the American shuttles that are now being used to fly crews and cargoes to the International Space Station, reports Itar-Tass. A special team has already been formed here to look into the problem. Kiioshi Higuchi, member of the Board of Directors of the Japanese National Aerospace Exploration Agency (JAXA), heads the team, the Kyodo Tsushin News Agency reported on Thursday. The European Space Agency, Ukraine, Belarus and Kazakhstan had previously evinced interest in their participation in the new Russian space project. In considering the problem, Tokyo is proceeding primarily from the fact that the United States is determined to discontinue all flights of its shuttles by 2010 and to concentrate its efforts on the preparation of expeditions to the Moon and Mars. The Kliper project will give Russia, the EU countries, and Japan a chance to make effective use of the International Space Station even without America's active participation. A Kliper spacecraft will be able to carry six people and to take to the ISS and bring back five hundred kilograms of cargoes. A rocket will be used to boost it into outer space. A Kliper will be able to fly autonomously for fifteen days running. Its non-expendable recovery capsule is designed for twenty-five flights. The spacecraft will have a service life of ten years.
    [Show full text]
  • Space Planes and Space Tourism: the Industry and the Regulation of Its Safety
    Space Planes and Space Tourism: The Industry and the Regulation of its Safety A Research Study Prepared by Dr. Joseph N. Pelton Director, Space & Advanced Communications Research Institute George Washington University George Washington University SACRI Research Study 1 Table of Contents Executive Summary…………………………………………………… p 4-14 1.0 Introduction…………………………………………………………………….. p 16-26 2.0 Methodology…………………………………………………………………….. p 26-28 3.0 Background and History……………………………………………………….. p 28-34 4.0 US Regulations and Government Programs………………………………….. p 34-35 4.1 NASA’s Legislative Mandate and the New Space Vision………….……. p 35-36 4.2 NASA Safety Practices in Comparison to the FAA……….…………….. p 36-37 4.3 New US Legislation to Regulate and Control Private Space Ventures… p 37 4.3.1 Status of Legislation and Pending FAA Draft Regulations……….. p 37-38 4.3.2 The New Role of Prizes in Space Development…………………….. p 38-40 4.3.3 Implications of Private Space Ventures…………………………….. p 41-42 4.4 International Efforts to Regulate Private Space Systems………………… p 42 4.4.1 International Association for the Advancement of Space Safety… p 42-43 4.4.2 The International Telecommunications Union (ITU)…………….. p 43-44 4.4.3 The Committee on the Peaceful Uses of Outer Space (COPUOS).. p 44 4.4.4 The European Aviation Safety Agency…………………………….. p 44-45 4.4.5 Review of International Treaties Involving Space………………… p 45 4.4.6 The ICAO -The Best Way Forward for International Regulation.. p 45-47 5.0 Key Efforts to Estimate the Size of a Private Space Tourism Business……… p 47 5.1.
    [Show full text]
  • Design Evolution and AHP-Based Historiography of Lifting Reentry Vehicle Space Programs
    AIAA 2016-5319 AIAA SPACE Forum 13 - 16 September 2016, Long Beach, California AIAA SPACE 2016 Design Evolution and AHP-based Historiography of Lifting Reentry Vehicle Space Programs Loveneesh Rana∗ and Bernd Chudoba y University of Texas at Arlington, TX-76019-0018 The term \Historiography" is defined as the writing of history based on the critical examination of sources. In the context of space access systems, a considerable body of lit- erature has been published addressing the history of lifting-reentry vehicle(LRV) research. Many technical papers and books have surveyed legacy research case studies, technology development projects and vehicle development programs to document the evolution of hy- personic vehicle design knowledge gained from the early 1950s onwards. However, these accounts tend to be subjective and qualitative in their discussion of the significance and level of progress made. Even though the information addressed in these surveys is consid- ered crucial, it may lack qualitative or quantitative organization for consistently measuring the contribution of an individual program. The goal of this study is to provide an anatomy aimed at addressing and quantifying the contribution of legacy programs towards the evolution of the hypersonic knowledge base. This paper applies quantified analysis to legacy lifting-reentry vehicle programs, aimed at comprehensively capturing the evolution of LRV hypersonic knowledge base. Beginning with an overview of literature surveys focusing on hypersonic research programs, a com- prehensive list of LRV programs, starting from the 1933 Silvervogel to the 2015 Dream Chaser, is assembled. These case-studies are assessed on the basis of contribution made towards major hypersonic disciplines.
    [Show full text]
  • Bibliography
    Bibliography 1. Books 1. Ackerman, S.A., Knox, J.A.: Meteorology – Understanding the Atmosphere. Jones & Bartlett Learning, Burlington (2015) 2. Aragon-Zavala, A., et al.: High-Altitude Platforms for Wireless Communications. Wiley, Chichester (2008) 3. Asrar, G.R., Hurrell, J.W.: Climate Science for Serving Society. Springer, Dordrecht (2013) 4. Bajorski, P.: Statistics for Imaging, Optics and Photonics. Springer, Boston (2011) 5. Berlin, P.: Geostationary Applications Satellite. Cambridge University Press, Cambridge, UK (1988) 6. Blonstein, L.: Communications Satellites, The Technology of Space Communications. Heinemann, London (1987) 7. Bowman, K., Yang, P.: Satellite Meteorology and Atmospheric Remote Sensing – An Introduction. Wiley, Chichester (2009) 8. Buglia, J.: Introduction to the Theory of Atmospheric Radiative Transfe. Langley Research Center, Hampton (1986) 9. Calcutt, D., Tetley, L.: Satellite Communications, Principles and Applications. Elsevier, Oxford (2004) 11. Chen, H.S.: Space Remote Sensing Systems. Academic, Washington, DC (2014) 12. Chuvieco, E., Huete, A.: Fundamentals of Satellite Remote Sensing. CRC Press – Taylor & Francis Publishers, Boca Raton (2009) 13. Conway, E.D.: An Introduction to Satellite Image Interpretation. Johns Hopkins University Press, Baltimore (1997) 14. Dalgleish, D.I.: An Introduction to Satellite Communications. IEE, Peter Peregrinus, London (1989) 15. Denegre, J.: Thematic Mapping from Satellite Imagery – An International Report. Pergamon Press, Oxford, UK (2013) 16. Dobrzykowski, S.: Advanced Topics in Satellite Meteorology and Remote Sensing. CreateSpace Independent Publishing Platform, North Charleston (2015) 17. Elbert, B.R.: Ground Segment and Earth Station Handbook. Artech House, Boston/London (2001) 18. Evans, B.G.: Satellite Communication Systems. IEE, Peter Peregrinus, London (1991) 19. Everett, J.: VSAT- Very Small Aperture Terminals.
    [Show full text]
  • 2008-01-2027 Testing the Celentano Curve: an Empirical Survey of Predictions for Human Spacecraft Pressurized Volume
    SAE TECHNICAL PAPER SERIES 2008-01-2027 Testing the Celentano Curve: An Empirical Survey of Predictions for Human Spacecraft Pressurized Volume Marc M. Cohen Northrop Grumman Corporation 38th International Conference on Environmental Systems San Francisco, California June 29-July 2, 2008 400 Commonwealth Drive, Warrendale, PA 15096-0001 U.S.A. Tel: (724) 776-4841 Fax: (724) 776-0790 Web: www.sae.org By mandate of the Engineering Meetings Board, this paper has been approved for SAE publication upon completion of a peer review process by a minimum of three (3) industry experts under the supervision of the session organizer. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of SAE. For permission and licensing requests contact: SAE Permissions 400 Commonwealth Drive Warrendale, PA 15096-0001-USA Email: [email protected] Tel: 724-772-4028 Fax: 724-776-3036 For multiple print copies contact: SAE Customer Service Tel: 877-606-7323 (inside USA and Canada) Tel: 724-776-4970 (outside USA) Fax: 724-776-0790 Email: [email protected] ISSN 0148-7191 Copyright © 2008 SAE International Positions and opinions advanced in this paper are those of the author(s) and not necessarily those of SAE. The author is solely responsible for the content of the paper. A process is available by which discussions will be printed with the paper if it is published in SAE Transactions. Persons wishing to submit papers to be considered for presentation or publication by SAE should send the manuscript or a 300 word abstract of a proposed manuscript to: Secretary, Engineering Meetings Board, SAE.
    [Show full text]
  • Lunar Outpost the Challenges of Establishing a Human Settlement on the Moon Erik Seedhouse Lunar Outpost the Challenges of Establishing a Human Settlement on the Moon
    Lunar Outpost The Challenges of Establishing a Human Settlement on the Moon Erik Seedhouse Lunar Outpost The Challenges of Establishing a Human Settlement on the Moon Published in association with Praxis Publishing Chichester, UK Dr Erik Seedhouse, F.B.I.S., As.M.A. Milton Ontario Canada SPRINGER±PRAXIS BOOKS IN SPACE EXPLORATION SUBJECT ADVISORY EDITOR: John Mason, M.Sc., B.Sc., Ph.D. ISBN 978-0-387-09746-6 Springer Berlin Heidelberg New York Springer is part of Springer-Science + Business Media (springer.com) Library of Congress Control Number: 2008934751 Apart from any fair dealing for the purposes of research or private study, or criticism or review, as permitted under the Copyright, Designs and Patents Act 1988, this publication may only be reproduced, stored or transmitted, in any form or by any means, with the prior permission in writing of the publishers, or in the case of reprographic reproduction in accordance with the terms of licences issued by the Copyright Licensing Agency. Enquiries concerning reproduction outside those terms should be sent to the publishers. # Praxis Publishing Ltd, Chichester, UK, 2009 Printed in Germany The use of general descriptive names, registered names, trademarks, etc. in this publication does not imply, even in the absence of a speci®c statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use. Cover design: Jim Wilkie Project management: Originator Publishing Services, Gt Yarmouth, Norfolk, UK Printed on acid-free paper Contents Preface ............................................. xiii Acknowledgments ...................................... xvii About the author....................................... xix List of ®gures ........................................ xxi List of tables ........................................
    [Show full text]
  • SH Rules Final 110819.Pdf
    SH_rules.indd 1 11/8/19 10:30 AM TABLE OF CONTENTS 1.0 Game Components 2.0 Concepts and Features 2.1 Numbers and Dice 2.2 Solar System Tiles 2.3 Markers 2.4 The Tech and Policy Charts 2.5 Politics and Foreign Relations 2.6 Ships “Earth is just too small and fragile 2.7 Bases 2.8 Fleets and Stacking a basket for the human race to 3.0 Sequence of Play 3.1 Economic Phase keep all its eggs in.” 3.2 Build and Service Ships 3.3 Movement Phase -Robert Heinlein 3.4 Combat Phase 3.5 Exploration 3.6 Trade and Base Construction 4.0 The Campaign 5.0 Events 6.0 Scenarios 7.0 Optional Rules 8.0 Examples 9.0 Player’s Notes 10.0 Credits 11.0 Combat Table is a “build your own space program” game for 2-7 players where you will lead one of seven Earth factions in a race to develop our solar system through exploration, expansion, and potentially, conflict. It’s a plausible representation of humanity’s first steps toward the stars between 2030 and 2169, with each turn representing one year of time. Each faction (representing a nation or group of nations on Earth) has unique advantages and disadvantages, along with its own ship designs and bases. You are in charge of your faction’s space program, although you will have some influence over your faction’s politics on Earth as space development becomes more important. Game play takes place on tiles representing planets, dwarf planets, asteroids, moons, and other worlds, arranged on tiles placed outwards from the Sun, forming the solar system as a series of travel hubs.
    [Show full text]
  • Origins of 21St Century Space Travel
    O RIGINS of ORIGINS of 21st-Century Space Travel ASNER A History of NASA’s Decadal Planning Team and the Vision for & GARBER Space Exploration, 1999–2004 Glen R. Asner Stephen J. Garber ORIGINS of 21st-Century Space Travel A History of NASA’s Decadal Planning Team and the Vision for Space Exploration, 1999–2004 The Columbia Space Shuttle accident on 1 February 2003 presented the George W. Bush administration with difficult choices. Could NASA safely resume Shuttle flights to the International Space Station? If so, for how long? With two highly visible Shuttle trag- edies and only three operational vehicles remaining, administration officials concluded on the day of the accident that major decisions about the space pro- gram could be delayed no longer. NASA had been supporting studies and honing plans for several years in preparation for an opportu- nity to propose a new mission for the space program. As early as April 1999, NASA Administrator Daniel Goldin had established the Decadal Planning Team (DPT) to provide a forum for future Agency leaders to begin considering goals more ambitious than send- ing humans on missions to near-Earth destinations and robotic spacecraft to far-off destinations, with no relation between the two. Goldin charged DPT with devising a long-term strategy that would inte- grate the entire range of the Agency’s capabilities, in science and engineering, robotic and human space- flight, to reach destinations beyond low-Earth orbit. When the Bush administration initiated inter- agency discussions in 2003 to consider a new spaceflight strategy, NASA was prepared with tech- nical and policy options, as well as a team of individ- uals who had spent years preparing for the moment.
    [Show full text]
  • CRS Report for Congress Received Through the CRS Web
    Order Code RS22270 Updated October 18, 2005 CRS Report for Congress Received through the CRS Web The International Space Station and the Iran Nonproliferation Act (INA): The Bush Administration’s Proposed INA Amendment Marcia S. Smith and Sharon Squassoni Congressional Research Service Summary The Iran Nonproliferation Act (P.L. 106-178) prohibits the National Aeronautics and Space Administration (NASA) from purchasing Russian goods and services for the International Space Station (ISS) unless the President certifies that Russia is not proliferating certain technologies to Iran. On July 12, 2005, the Administration submitted to Congress an amendment to the act to allow NASA to purchase goods and services from Russia to support the U.S.-led ISS. This presents a classic policy dilemma. Without access to Russian spacecraft, the U.S. use of the ISS could be extremely limited. Yet Russian entities are continuing proliferation activities relating to missile proliferation according to the Department of State. This report focuses on the amendment proposed by the Bush Administration. CRS Issue Brief IB93017 discusses the ISS program; CRS Report RS22072 discusses the origins of the Iran Nonproliferation Act (INA) and its relationship to the ISS program. The Senate passed S. 1713 on September 21. It is different from the Administration’s proposal, but would allow NASA to purchase needed services from Russia until January 1, 2012. A similar bill (H.R. 4003) was introduced in the House. This report will be updated as needed. Background The United States has passed laws and used sanctions to deter Russia and other countries from providing technologies related to nuclear, chemical, and biological weapons, ballistic missiles, and advanced conventional weapons to Iran (see CRS Report RL32048, Iran: U.S.
    [Show full text]
  • Quarterly Launch Report
    Commercial Space Transportation QUARTERLY LAUNCH REPORT Copyright © 2004 Mike Massee Featuring the launch results from the 3rd quarter 2004 and forecasts for the 4th quarter 2004 and 1st quarter 2005 Quarterly Report Topic: Overview of the U.S. Small Launch Industry 4th Quarter 2004 United States Department of Transportation • Federal Aviation Administration Associate Administrator for Commercial Space Transportation 800 Independence Ave. SW • Room 331 Washington, D.C. 20591 Fourth Quarter 2004 Quarterly Launch Report 1 Introduction The Fourth Quarter 2004 Quarterly Launch Report features launch results from the third quarter of 2004 (July-September 2004) and forecasts for the fourth quarter of 2004 (October-December 2004) and first quarter of 2005 (January-March 2005). This report contains information on worldwide commercial, civil, and military orbital and commercial suborbital space launch events. Projected launches have been identified from open sources, including industry references, company manifests, periodicals, and government sources. Projected launches are subject to change. This report highlights commercial launch activities, classifying commercial launches as one or both of the following: • Internationally-competed launch events (i.e., launch opportunities considered available in principle to competitors in the international launch services market) • Any launches licensed by the Associate Administrator for Commercial Space Transportation of the Federal Aviation Administration under 49 United States Code Subtitle IX, Chapter 701 (formerly the Commercial Space Launch Act) Special Note Previous Quarterly Launch Reports have focused solely on orbital launches. However, due to increased suborbital space activity in the United States, and the possibility that it may occur in other countries in the future, this and subsequent Quarterly Launch Reports will now record FAA-licensed and equivalent international suborbital launches in addition to orbital space activity.
    [Show full text]
  • International Cooperation in Space (ICIS)
    JMW-ICIS International Cooperation in Space An Interactive Qualifying Project Submitted to the Faculty of the Worcester Polytechnic Institute in partial fulfillment of the requirements for the Degree of Baccalaureate of Science Submitted June 6, 2006 By Francis Carino Alec Cunningham Michael Leferman James Yasuhara Advisors: John Wilkes, Roberto Pietroforte ______________________________ Table of Contents Abstract ............................................................................................................................... 3 Introduction ......................................................................................................................... 3 Organization Profiles .......................................................................................................... 5 National Aeronautics and Space Administration ............................................................ 5 European Space Agency ............................................................................................... 11 Japanese Aerospace Exploration Agency ..................................................................... 18 Chinese National Space Administration ....................................................................... 21 Roskosmos – Russian Federal Space Agency .............................................................. 25 Virgin Galactic .............................................................................................................. 28 Motivations to go to the Moon.........................................................................................
    [Show full text]