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1

Electronic Resource

Mass transfer and internal circulation in forming drops (1976)

Burkhart, Lawrence ; Weathers, P. W. ; Sharer, P. C.

Hoboken, NJ : Wiley-Blackwell

AIChE Journal 22 (1976), S. 1090-1096

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ISSN: 0001-1541

Keywords: Chemistry ; Chemical Engineering

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Process Engineering, Biotechnology, Nutrition Technology

Notes: The presence of internal circulation in forming liquid drops has a significant effect on mass transfer rates. For the systems studied, no circulation was observed below a Reynolds number of 9.7. For Reynolds numbers between 9.7 and 34.4, transition from zero circulation to complete circulation during the entire drop formation period occurred. In studies on the rate of mass transfer from fixed volume drops with forced internal circulation, increases in mass transfer rates were found at Reynolds numbers which corresponded to those observed for the development of internal circulation patterns within the drop.

Additional Material: 6 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/aic.690220620

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Paper (German National Licenses)

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2

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Benefits of Fuel Cell Range Extender for Medium-Duty Vehicle Applications (2013)

Sharer, P. ; Rousseau, A.

Molecular Diversity Preservation International

In: World Electric Vehicle Journal. 2013; 6(2): 452-463. Published 2013 Jun 28. doi: 10.3390/wevj6020452.

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Publication Date: 2013-06-28

Electronic ISSN: 2032-6653

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Published by Molecular Diversity Preservation International

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3

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Using multiobjective optimization for automotive component sizing (2015)

Vijayagopal, R. ; Chen, R. ; Sharer, P. ; [et al.]

Molecular Diversity Preservation International

In: World Electric Vehicle Journal. 2015; 7(2): 261-269. Published 2015 Jun 26. doi: 10.3390/wevj7020261.

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Publication Date: 2015-06-26

Electronic ISSN: 2032-6653

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Published by Molecular Diversity Preservation International

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4

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Mass transfer and internal circulation in forming drops (1976)

Burkhart, Lawrence ; Weathers, P. W. ; Sharer, P. C.

Wiley

In: AIChE Journal. 1976; 22(6): 1090-1096. Published 1976 Nov 01. doi: 10.1002/aic.690220620.

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Publication Date: 1976-11-01

Print ISSN: 0001-1541

Electronic ISSN: 1547-5905

Topics: Chemistry and Pharmacology , Process Engineering, Biotechnology, Nutrition Technology

Published by Wiley on behalf of American Institute of Chemical Engineers.

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5

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Heuristic Modeling for TRMM Lifetime Predictions (1996)

Sharer, P. J. ; Jordan, P. S. ; DeFazio, R. L.

In: CASI

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Publication Date: 2019-06-28

Description: Analysis time for computing the expected mission lifetimes of proposed frequently maneuvering, tightly altitude constrained, Earth orbiting spacecraft have been significantly reduced by means of a heuristic modeling method implemented in a commercial-off-the-shelf spreadsheet product (QuattroPro) running on a personal computer (PC). The method uses a look-up table to estimate the maneuver frequency per month as a function of the spacecraft ballistic coefficient and the solar flux index, then computes the associated fuel use by a simple engine model. Maneuver frequency data points are produced by means of a single 1-month run of traditional mission analysis software for each of the 12 to 25 data points required for the table. As the data point computations are required only a mission design start-up and on the occasion of significant mission redesigns, the dependence on time consuming traditional modeling methods is dramatically reduced. Results to date have agreed with traditional methods to within 1 to 1.5 percent. The spreadsheet approach is applicable to a wide variety of Earth orbiting spacecraft with tight altitude constraints. It will be particularly useful to such missions as the Tropical Rainfall Measurement Mission scheduled for launch in 1997, whose mission lifetime calculations are heavily dependent on frequently revised solar flux predictions.

Keywords: Spacecraft Design, Testing and Performance

Type: Flight Mechanics/Estimation Theory Symposium 1996; 349-359; NASA-CP-3333

Format: application/pdf

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6

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Transfer trajectory design for the SOHO libration-point mission (1992)

Sharer, P. J. ; Dunham, D. W. ; Roberts, C. E. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: It is shown that transfer trajectories to the halo orbit exist throughout the year, with a one week closure of the launch window each month because of unfavorable lunar perturbations that cannot be corrected in the case of transfer trajectory insertion errors. The launch window for transfers to large-amplitude Lissajous orbits is virtually the same as that for transfers to the baseline halo orbit. Details of these trajectories are described and questions about groundstation coverage are discussed.

Keywords: ASTRODYNAMICS

Type: IAF PAPER 92-0066

Format: text

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7

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Double lunar swingby and Lissajous trajectory design for the WIND mission (1992)

Seacord, A. W., II ; Roberts, C. E. ; Sharer, P. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Two alternative mission profiles are presented for the WIND mission whose baseline design includes two years in a double lunar swingby (DLS) orbit followed by one year in a Lissajous orbit about the sun-earth L1 libration point. The first alternative uses a half-month high-inclination transfer orbit between two lunar gravity assists to change the initial sunward DLS orbit to a DLS orbit in the geomagnetic tail region. The second alternative uses a direct insertion from launch into a large-amplitude Lissajous orbit followed by a sunward DLS orbit.

Keywords: ASTRODYNAMICS

Type: IAF PAPER 92-0065

Format: text

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8

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Control of libration point orbits using lunar gravity-assisted transfer (1993)

Sharer, P. ; Folta, D. ; Zsoldos, J.

In: Other Sources

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Publication Date: 2019-07-13

Description: The Interplanetary Physics Laboratory, WIND, will be placed in a small-amplitude halo orbit in late 1995. A lunar swingby is used to achieve the halo orbit. Using the lunar swingby reduces the fuel required to achieve the desired orbit. The spacecraft's position and velocity with respect to the Moon near the time of swingby are shown to determine the characteristics of the halo orbit. The shape of the halo orbit, its x-, y-, and z-amplitudes, must be designed to meet mission constraints. A convenient set of parameters for displaying the dependence of the halo orbit's shape upon the lunar swingby is formulated. The use of the lunar swingby adds additional constraints to the trajectory in terms of attainable swingby parameters. Strategies for obtaining the desired swingby parameters in view of these mission constraints are discussed. The limits on attainable halo orbit shapes using the lunar swingby technique are discussed in terms of minimum and maximum x-, y-, and z-amplitudes. The relevance of previous work on this topic is discussed.

Keywords: ASTRODYNAMICS

Type: In: Spaceflight dynamics 1993; AAS(NASA International Symposium, 8th, Greenbelt, MD, Apr. 26-30, 1993, Parts 1 &amp; 2 . A95-85716 (ISSN 0065-3438); p. 651-663

Format: text

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9

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Trajectory design for the Deep Space Program Science Experiment (DSPSE) mission (1993)

Jen, J. ; Roberts, C. ; Kaufman, B. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: In 1994, the Deep Space Program Science Experiment (DSPSE) spacecraft will become the first spacecraft to perform, in succession, both a lunar orbiting mission and a deep-space asteroid encounter mission. The primary mission objective is to perform a long-duration flight-test of various new-technology lightweight components, such as sensors, in a deep-space environment. The mission has two secondary science objectives: to provide high-resolution imaging of the entire lunar surface for mapping purposes and flyby imaging of the asteroid 1620 Geographos. The DSPSE mission is sponsored by the Strategic Defense Initiative Organization (SDIO). As prime contractor, the Naval Research Laboratory (NRL) is building the spacecraft and will conduct mission operations. The Goddard Space Flight Center's (GSFC) Flight Dynamics Division is supporting NRL in the areas of The Deep Space Network (DSN) will provide tracking support. The DSPSE mission will begin with a launch from the Western Test Range in late January 1994. Following a minimum 1.5-day stay in a low-Earth parking orbit, a solid kick motor burn will boost DSPSE into an 18-day, 2.5-revolution phasing orbit transfer trajectory to the Moon. Two burns to insert DSPSE into a lunar polar orbit suitable for the mapping mission will be followed by mapping orbit maintenance and adjustment operations over a period of 2 sidereal months. In May 1994, a lunar orbit departure maneuver, in conjunction with a lunar swingby 26 days later, will propel DSPSE onto a heliocentric transfer that will intercept Geographos on September 1, 1994. This paper presents the characteristics, deterministic delta-Vs, and design details of each trajectory phase of this unique mission, together with the requirements, constraints, and design considerations to which each phase is subject. Numerous trajectory plots and tables of significant trajectory events are included. Following a discussion of the results of a preliminary launch window analysis, a summary of the deterministic impulsive delta-V budget required to establish the baseline mission trajectory design is presented.

Keywords: ASTRODYNAMICS

Type: In: Spaceflight dynamics 1993; AAS(NASA International Symposium, 8th, Greenbelt, MD, Apr. 26-30, 1993, Parts 1 &amp; 2 . A95-85716 (ISSN 0065-3438); p. 157-171

Format: text

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