9/11 Review Wiki
Anatoly I. Kiselev
USSR April 29 1938
Born Anatoly Ivanovich Kiselev - Director
General of Khrunichev State Research Space Center in 1994-
2001.
6 October 1999: Designers of the MIR Space Station to
Receive the 4th Francois-Xavier Bagnoud Aerospace Prize at the
Royal Aeronautical Society Luncheon, October 15, 1999, PR Newswire,
Yahoo
"Five Russian space scientists will be honored with the Fourth
$250,000 Francois-Xavier Bagnoud Aerospace Prize for their
contributions to the design and development of the Mir
multi-modular space station and its transportation system ... the
scientists honored were: Messrs Yuri P. Semenov,
Anatoly I. Kiselev, Gai I.
Severin, Anatoly I. Grigoriev and Peter I. Klimuk."
http://biz.yahoo.com/prnews/991006/francois_x_1.html
www.nasawatch.com/russia.1999.html
At a Moscow Voters' Meeting, Ascendancy of Ivana Q.
Public
For Mrs. Saminskaya and her friends, the suspicion was focused on
one candidate, Anatoly Ivanovich
Kiselev,
director of the
top-secret Khrunichev Machine Tool Factory and the clear favorite
of the local party establishment.
Throwing down the
gauntlet to Mr. Kiselev, he urged voters not to send to their new
congress a representative of ''the military-industrial
complex.''
Anatoly Ivanovich
Kiselev, CEO of GKNPTs named after M.V.Khrunichev,
HSL, co-author of "Proton" space craft, many
orbiters and ICBMs, was born.
Outstanding
scientist and manager of Russian Space Industry.
The Khrunichev State Research and Production Space Center was
created by the Russian Federation Presidential Decree of June 7,
1993
Years of the
Khrunichev Space Center—From Cars to Space Vehicles,
Anatoly
I. Kiselev, Alexander A. Medvedev, Vladimir K. Karrask and
Oleg A. Sokolov.
www.amazings.com/sbb/reviews/review0581.html
Anatoly I. KIselev
Deputy Operation Director of the Khrunichev Plant (1968)
Production of UR-100 ICBMs
Expert teams headed by OKB-23 general designer V.N. Chelomei, chief
designer of the Fili-based Branch
#1 of OKB-23 V.N. Bugaisky, developers and makers of systems and
units for the UR-100 at the head of
V.P. Barmin, N.A. Pilyugin, V.I. Kuznetsov, S.A. Kosberg, S.P.
Izotov and V.A. Okunev, and many other well-
known engineers and scientists developed a combat missile complex
with the UR-100 intercontinental
ballistic missile, which became the forerunner of a whole
generationofmissiles.Theirproduction,commissioning,
placement on combat duty, warranty supervision and maintenance have
for decades been the responsibility
of the Khrunichev Plant and now the Khrunichev State Research and
Production Space Center under the
direction of M.I. Ryzhikh and A.I.
Kiselev.
PROGRAMME OF THE TECHNICAL FORUM
OF THE UNISPACE III CONFERENCE
Space Agencies and Industry Heads
Panel on the Theme of the Conference
Schedule:
Thursday, 22 July 1999, 12:00 - 13:30
(agency heads &industry CEOs)
Mr. S. Daniel S. Goldin,
Administrator, NASA, USA
Mr. Yuri N. Koptev, Director-General, Russian Space Agency, Russian
Federation
Dr. Gérard Brachet, Director General, CNES, France
Mr. J. Vaz, President, Brazsat, Brazil
Mr. Jim Albaugh, President, Boeing Space&Communications Group,
USA
Dr. Anatoly I. Kiselev,
Khrunichev State Research & Production Space Centre,
RF
Space Agency Heads Panel on 21
July, Wednesday:
Dr. D. James Baker,
Administrator, NOAA (U.S.)
Prof. Sergio De Julio, President, ASI (Italy)
Mr. Mac Evans, President, CSA (Canada)
Dr. K. Kasturirangan, Chairman, ISRO (India)
Prof. Dr. Walter Kröll,
Chairman, DLR (Germany)
Prof. Antonio Rodotŕ, Director-General, ESA
Mr. Isao Uchida, President, NASDA (Japan)
Space Agency and Industry Heads Panel on 22 July,
Thursday:
Mr. Jim Albaugh, President,
Boeing Space & Communications
Group (U.S.)
Dr. Gérard Brachet, Director-General, CNES (France)
Mr. Daniel S. Goldin,
Administrator, NASA (U.S.)
Dr.
Anatoly I. Kiselev, Khrunichev State Research &
Production
Space Centre (Russian Federation)
Mr. Yuri N. Koptev, Director-General, Russian Space Agency
(Russian Federation)
Mr. J. G. Vaz, President, Brazsat (Brazil)
Coordinator:
United Nations Office for Outer Space Affairs
===============
United States Patent 6769651
METHOD FOR PLACING PAYLOAD IN ORBIT BY MULTIFUNCTIONAL LAUNCH
VEHICLE OF COMBINED SCHEME WITH CRUISE LIQUID ROCKET ENGINE SYSTEM
(LRES), MULTIFUNCTIONAL LAUNCH VEHICLE OF COMBINED SCHEME WITH
CRUISE LRES AND METHOD FOR REFINING IT
The invention relates to a space-rocket technology an can be used
for both a pilot-controlled and unpiloted space craft in the
earth's orbit. The inventive method consists in igniting-up
cruising liquid-fuel rocket engines (LRE) of all assembly units,
when the propulsion power of LRE of the side units is set to
maximum and the LRE of the central unit is set relatively low.
===============
The stacking of Indian Space Research Organisation's first
Geostationary Satellite Launch vehicle (GSLV) has begun in
Sriharikota. The 129-t solid first stage has been erected and mated
with four 40-t liquid strap-on boosters and the 35-t liquid second
stage. The cryogenic upper stage, provided by GKNPTs Khrunichev,
will be added shortly. Launch is now due between February 25 and
28.
Acronyms
GKNPTs = Gosudarstvenny Kosmichesky
Nauchno-Proizvodstvenny Tsentr (State Cosmic Research and
Production Centre)
January 9 - Extra
Funds for Atlas NRO Launch
U.S. Air Force's Space & Missile Systems
Center has awarded a US$6.4-million increase to an existing
contract with Lockheed Martin Launch Services for the launch of an
unidentified U.S. National Reconnaissance Office (NRO) payload atop
an Atlas 2AS vehicle from Cape Canaveral Air Force Station in
December 2001. US$3.2 million have already been paid under this
contract.
- April 23 - Alcatel Contracts With ILS to Launch GE
Satellites
- Alcatel Space has contracted with International Launch Services for two GKNPTs
Khrunichev
Proton launches to loft two satellites in 2002 and 2003.
Lockheed Martin's Atlas 5 will serve as a backup
solution for these launches. Alcatel Space has been awarded a
contract by GE
American Communications (GE Americom) to build three more
communication satellites in addition to the four satellites already
ordered in 2000. Among the new satellites will be an unnamed GE
satellite based on Alcatel's Spacebus 3000 design and carrying
24 Ku and 24 C-band transponders. It will be launched in 2002 to a
geostationary slot at 79 degrees West. The other two will be
GE-2E, and its ground spare GE-3E. Based on Alcatel's
Spacebus 4000 bus, GE-2E will carry 40 Ku-band transponders
and be launched in 2003 to the 24 degrees East geostationary
slot.
- Editor's
note: Alcatel Space
was awarded a contract for 4 GE satellites in April 2000
(unveiled in July): GE-12, GE-14, GE-1i and GE-2i. GE-14 is
tentatively set for a launch on Atlas 2AS while the
other three are manifested on Proton.
April
7 - Proton M Success- GKNPTs
Khrunichev
successfully launched its first
Proton M vehicle from Baykonur Cosmodrome, delivering
the last Ekran M direct broadcasting satellite directly into
geostationary orbit some 7 hours after liftoff. This
modernized version of the 34-year-old Proton K features
improved stages with lighter structural mass and a new propellant
management system which reduces propellant residuals at shutdown
and toxic wastes at stage impact points. The thrust of the six
RD-253 engines powering the first stage has been increased
by 7%. The Proton M incorporates digital avionics in its new
Breeze M upper stage and can carry heavier payloads (up
to 22,000 kg to 200 km, 51.6 degrees or
5,500 kg to geostationary transfer orbit at 25 degrees)
under large fairings.
- Editor's
note: The first
commercial flight of the Proton M is due in late 2001 to loft
Intelsat's Intelsat 903 communication satellite. Another
improvement is planned circa 2003 with the introduction of a new
cryogenic upper stage, the KVRB, derived from the upper
stage designed by Khrunichev
for India's GSLV, which will increase the payload capability
to GTO to 6,400 kg circa 2004.
- April
5 - Two ILS Proton Delivered in Baykonur
- Two Proton K vehicles have been
delivered to Baykonur Cosmodrome by GKNPTs
Khrunichev.
They will be launched in mid-May and early
June, respectively to loft PanAmSat's PAS-10 and Société Européenne des
Satellites' Astra 2C on behalf of International Launch
Services.
- April
5 - Proton M Maiden Flight Postponed One Day
- The first launch of GKNPTs
Khrunichev's
new Proton M vehicle has been postponed from
April 6 to April 7
due to several anomalies detected on the Breeze M upper
stage, also built by Khrunichev.
The payload for this flight is the last Ekran M direct
broadcasting satellite.
-
www.orbireport.com/News2001-04.html
http://www.space-launcher.com/News2001-01.html
Cooperation between India and Russia in the field of
space has long been an important aspect of the partnership between
Moscow and New Delhi. However, the contribution of Soviet and then
Russian assistance to India’s drive to become an independent space
power is not entirely clear and bears further exploration.
In 1986, ISRO started its most ambitious Geosynchronous
Satellite Launch Vehicle (GSLV) project aimed at developing a
medium launcher with a geostationary transfer orbit (GTO) capacity
of more than 2 tons (twice as much as the PSLV). Stages I & II
of the three-stageGSLV Mk 1 version are powered by Vikas engines.
The Vikas engines are also used in four strap-on boosters of the
launch vehicle. A cryogenic upper stage (Stage III) would be a key
element of the new launcher. Initial development of the upper stage
and cryogenic engine was done by Indian specialists without foreign
assistance, but to expedite the fulfillment of the GSLV program,
India decided to acquire foreign technologies. The Soviet
Glavkosmos beat other US and French companies to win a $120 million
contract for the delivery of two upper-stage cryogenic KVD-1
engines to India in January 2001. The KVD-1, with a thrust of 7.5
tons and one-time ignition, was developed in the1960s for the
Soviet N-1 moon rocket by the Chemical Machine-Building Design
Bureau (KB KhimMash located in Korolev, Moscow region). The
contract also provided for the transfer of engine manufacturing
technology. The Khrunichev Design and Production Center
(GKNPTs
Khrunichev) was contracted to design the upper stage.
However, after the collapse of the Soviet Union, the US pressured
Yeltsin’s government to formally terminate the agreement in August
1993, citing an alleged violation of Missile Technology Control
Regime (MTCR). It is interesting to note that at the same time, US
companies were building a rocket propellant liquefaction plant in
Mahendragiri, which was completed in 1992. US arguments that
cryogenic engines could be used for missile production are highly
doubtful, while the European Vikas really is fit for such a
purpose.
On April 18, 2001 the GSLV Mk I made its inaugural flight with a
Khrunichev-built cryogenic (KVD-1) upper stage, placing an Indian
GSAT-1 communication satellite (1,500kg) into geostationary
transfer orbit. Having launched another two GSLV rockets during
2003-2004, India became fully independent in launching its payloads
into the critical geostationary orbit.
http://mdb.cast.ru/mdb/1-2005/space/russian_indian/
Iridium satellite communications
I started doing research on 4 other people with
Iridium
Feel
free to use this info
Anatoly Ivanovich Kiselev
Leo
Mondale
Gercenstein
Staiano
9/11 Review
Wiki
