Abstract
Experiments were carried out to observe the solidification sequence and void distribution for two different experimental liquids (cyclohexane and butanediol) enclosed in Pyrex tubes. Both liquids exhibited about 10% volumetric shrinkage during the phase transition from liquid to solid. To evaluate the possibility of regulating void formation by soluble gases, tests were conducted both in the presence and absence of dissolved air. A physical model was developed which predicts the essential features of the solidification pattern under earth's gravity field of 1-g and allows extrapolation of the results to outer space conditions of 0-g. Finally, an attempt was made to determine analytically the final void shape which would result from each nucleation point in 0-g. Understanding these aspects of the solidification process is vital to development of better thermal energy storage systems for space power applications.
Original language | English |
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Title of host publication | ASME-JSES-JSME International Solar Energy Conference |
Pages | 13-20 |
Number of pages | 8 |
State | Published - 1991 |
Event | Solar Engineering 1991 presented at the Second ASME-JSES-JSME International Solar Energy Conference - Reno, NV, USA Duration: Mar 17 1991 → Mar 22 1991 |
Conference
Conference | Solar Engineering 1991 presented at the Second ASME-JSES-JSME International Solar Energy Conference |
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City | Reno, NV, USA |
Period | 3/17/91 → 3/22/91 |
ASJC Scopus subject areas
- General Engineering