| Record ID | marc_miami_univ_ohio/allbibs0158.out:5873722:1381 |
| Source | Miami University of Ohio |
| Download Link | /show-records/marc_miami_univ_ohio/allbibs0158.out:5873722:1381?format=raw |
LEADER: 01381cam 2200289Ii 45 0
001 ocm06093887
005 20041117011053.0
008 800317s1979 dcua b f000 0 eng d
040 $aNCS$cNCS$dIUL$dMIA
049 $aMIAM
086 0 $aE 1.28:ALO-5367-1
086 0 $aE 1.28:ALO-5367-1
110 2 $aVirginia Polytechnic Institute and State University
245 10 $aHeat conduction in partial vacuum :$btechnical progress report /$cVirginia Polytechnic Institute and State University
260 $a[Washington] :$bU.S. Dept. of Energy, Solar Energy ;$aSpringfield, Va. :$bavailable from National Technical Information Service,$c1979
300 $aiv, 28 p. :$bill. ;$c28 cm
500 $aALO-5367-1
500 $aAuthor: James R. Thomas
500 $aPrepared for the U.S. Dept. of Energy, Solar Heating and Cooling Research and Development Branch, under contract EM-78-C-04-5367
500 $aTechnical progress report for the period 7 August 1978-31 January 1979
504 $aIncludes bibliographical references (p. 27-28)
650 0 $aHeat$xConduction
650 0 $aSolar collectors$xMathematical models
700 1 $aThomas, J. R.$q(James Russell),$d1941-
907 $a.b31488092$b10-05-05$c11-17-04
998 $aswdep$b11-17-04$cm$da$e-$feng$gdcu$h0$i1
945 $g1$i82335060507$i35054028499164$j0$lrg2td$n@SWORD 2004/05$p$0.00$s-$t19$u0$v0$w0$x0$y.i41732820$z11-17-04