Home

消研輯報第62号［PDF 13.0MB］

1.
2.
3.
4.
5.
6.
7. gt
8. 1
9. 19 1
10. ogogo e 2
11. 20 5 13H 1 1
12. nnm e 1 23 8 93 1
13. 1 2 146 nnm e 3 SS e SS
14. 5 12 21 4 2 lt 12
15. 2 AN
16. Bd 1 1 2 jS HH 3
17. 5 10
18. 1 29 NN CD 1
19. S KE
20. 4 171 nnm e e B sd 6 5 J Y 9 lt u d H 3 1 s FH i P d AIHH AHL iH 8 7 65mm 25mm N r re M Loop 20mm 15mm C ponte 172 ogogo e 20
21. 90cmX90cm zv nnm e A 3
22. 2003 10 EE Eli UUDD e 32 32 5
23. 2 2 a QA Nd YAG BM Industries PVL200 ogogo e 532nm FWHM 6ns 5mm E mJ pulse Scientech PHD50 f 100mm PMMA iH PMMA
24. 2 1 RG NN 0 lf A pn i e tg 500mmX 30mm 2 1 d 1 2 1 5 2 105 140mmX X 520mm 3 3
25. 3 ogogo e 35 1973 1974
26. 72m XE AL UUDD e QE 215E3H 10H
27. SEL mte 2006 4 2008 4 2 2006 4 2007 3
28. O AL loce LDL
29. 5 b 5 c e lt 5 f g 6 6 0 85m s
30. LAN
31. 8 nnm e 9 9 8
32. 20 10m s 3 11 PC PC 20 12 200cm s
33. 3 3 83
34. OBERE IE 2E 2004 23
35. 900 800 400 500 600 700 s CO2 CO 21 1 nnm e T Cw om wee wem aeo tos E cH rh ss ggrs nan iame sare sw amm p 4 2
36. OD ARA LU 77 33 VJ S E pE LE mr E OD pk t O WE Hoe RASE AA OMEBERIRBJUIBIES SC 2
37. 4 SN ZK nux 1 2 5 ogogo e 3
38. 7 21 19 20 1 4 Jus 2 4 3 VBA
39. 40 OMARA 44 4 40 4 4
40. 1 a 6
41. ya 1 1 2 5 2 2
42. 2 10 CPR 2 4 14 nnm e
43. 2 21 0 15
44. 2 13 14 10mm 20mm 30mm 13 14 10mm 20mm 30mm 15 10mm
45. 2 47 1 HO 20 8
46. 1 5 10 OO e e e M5 e UG CAEN
47. 3 46 18 4 23 3
48. Gl BAe Im 4 K bm Q ER 215E1H 13H
49. 3 2 3 1 w 3mm h 10mm 25mm 5 4 P 7 E 8g P 9 7mm 7 DO P E P 3
50. 2 MEIAS ET VA AT LOEk 20 20 19
51. 2 3
52. 138 Cx Cf XX N0
53. NEDO Ds COE 5 10 dt E Fi id DL dH 4E 62 21 10 m xag
54. 2 L 150 ogogo e EB kl 4 4 Oooo ddlll SES 8 Ori 899 SV ud e 4 fiO 8l 9 9 yaj 4 60 L 9 S jij lt 0O 9 MMII Sb oj do wje Arey wo c Oo el SS t T lt 2 SS anahera SS lt 0 4 lt ol go Ekon 6 0w O 8 5m 1 OEH Xx xTOZ 10989 Si cY 9 Farroa woo i weml 9 1 woj Oj v
55. UUDD e OHE 1 2
56. 3 J ALERT 3 ALERT 19 J ALERT nnm e ALERT G SR cA HL Res ER SABE OD Toe OE MS Xi HE HOKSRO B XA ERO SZ fa BERERUA TI BRT ETW MAp Gem AD SOME 3 amp 7 e ARRIA Dag B gt a MEAE fo amp dR TA If b 1 Semel Brahut f 0 D EEEE B AEEA A Fema TT WAT Petra uae LLLI d Tis si EE L dibiBgisciil E Wiring EE DEBBDD CHBLLD T M epu Pune 1
57. bs 92 nnm e ET 1
58. 2 4 254 cal 2
59. 6 Cu 2005 7 18 4 23 3 T i ra JE cm W
60. Ja 3 132 9
61. 50kW n 2 PMMA 1 PMMA 50kW mz 179
62. 6 E nnm e 2 UA 6
63. 50 2 1 d s D 2
64. se up 1 APTAC FT IR
65. 1 nnm e
66. 130 ogogo e 138 SETS 10 15 20 25 50m 2 E 3
67. DTBP DPT DTBP 4 5 DPT ARSST DTBP ELS 2 nnm e 250 200 150 100 Temperature C
68. 6 t 1 D 60
69. 20 2 H 10 1 20 5 7 7 1 2 1
70. 3 19 2 3 5
71. duco Aiidi4L20854 tlk NgERE OHnGi4 2O07 5 w YWyUIZOTHIULIZ034 7 84 pnt e
72. 5000m 4000m AKA 43 HH AR 7 BESA F xd deoxscumonms Sb Sis DN B
73. 163 d
74. 1 2 nnm e 5 Il D 18 4 23 3 7
75. 20 3 3 amp EE 775 8 OD 8 E 2 B 2 fe 4E 9 DENTI 48 X
76. E bs x AE
77. W WG 20 K NET 200 UUDD e A m m E H d Hr
78. 2 1 19 Wet W 1375 7 Bf Dry Dry 2 39 p 11 1997 1 K 0 EET 4 EE 7 p 10 18 an 323 0 009 0 017 0 028 0 047 0 049 0 044 g cm fi 2
79. 20 5 1 20 5 25 230 mI 1 1 2 D DAT 3 4 WARE IHE MR S 2 pu 5 6
80. 18 20 12 63 14 12 2 1 12 5 1
81. nnm e e MS Oma 5085s dEDHRO 5 1Om s e ______ MRT 1004 ARER tomo 5 l m s BE ED WE gg 4 0mAS a 2BBI AXS S om G 10 IDCM i DCCILLLPIZSCOLIEELIEUSITIUCLOTTLCITTCDCTITPULPEIT i i ti E E pr RGRE ECBIOSRGOHOMHSZEE un 2 jj 9 H e D ORAS SERESID E 1 7 1 8m s T HX at 1 1 0 5 10 20 30 40 5D OQ 5 10 20 30 40 55 CCCIESEX I RIBERA S IE yr 100 3my S 50 1 45 UUDD e 6 977 vW
82. n UUDD e 20 9 9 Sif Hal 15 9 2 TALU
83. 119 d 1 GPS
84. 3 1 2 1 qup coU 2 3 4
85. 21 1 Jo 2
86. Wm j 28 T of Loss Prevention in the International Editorial Process Industries Board 95 20 21 20 21 199 UUDD e TTE wi ID Zuzx 40 iH E
87. b CD 99 1 6 220mV 10 2 2Q 0 14A L2 1cN m 0 16 350mV 157 ogogo e 16 7Hz 10 0Hz 4A L2 1cN m VIETI OZ 4A 99 110 10 600 60 12 16 7Hz 45
88. g E 9 Emi mm 1 b ogogo e 3 1 d o
89. CVP Counter rotating vortex pair 30mm 5 X208 PF 0cm 3cm 6A 6B 3cm
90. ogogo e 2 21 18 6 H21 60
91. 18 19 20 20 6m 3m 12m Gox 1 6m
92. PICe UA HHH 6 5 1 1 2 2 2 1
93. 684 1 731 BR dE 3 9 0 13 95 140 T 54 29 EEK K OR E ZE 1 2 3 3 1 2
94. X lt Tr PROB 44 62 19
95. 5 6 7 8 4 1 2 nnm e 3 4 5 5 1 iu Ant 3
96. 35ms 1 56m s PMMA UUDD e
97. R RPE URE 20 7 8 1 CLOSED 2 CLOSED 3 1t CLOSED B
98. AED lt AED AED AED AED sd 122 AED AED
99. O O 4 6 4 7396 43 AED 82 AED 62 2 5 A ogogo e AED 82 AED 2496 4 5 5 1 47
100. 2 3 11 184 Hf 10 205 W 20 307 224 UUDD e 7 m 51 LEO m 46 H Bulletin the Seismological Society 28 Journal of Fire Protection Engi of America neering 30 Journal of Geotechnical and Engineering Fracture Mechanics Journal of Physics D Applied Fire Engineering 34 Journal of Loss Prevention in the Fire Prevention Fire Engineers Process Industries 35 Geoenvironmental Engineering 10 11 Journal Loss Prevention Bulletin
101. X 136 12 16 3 200 20 7 235
102. XD LAN GIS j OB AA MERZ 93 UUDD e 5 50 9
103. 11 5 a f p Z Ww 2 d F w c kw p u a RS ex x EN 9 EN 1 L4 4 4 T M 115 nnm e 7 8 3 9 116 nnm e 10 i 11 117 UUDD e 20 AED
104. 180 1981 2006 4 3 80 50 3 BE cz 19 2007
105. ASTER DEM 3 way pinpointing of emergency call from RFID reader equiped cellular phone pnt e Z JRI 2 2 LL RS ft 1 SB lE Z 3 NICT 1 AIST Osamu Takizawa NICT 3 Masafumi Hosokawa FDMA Ken ichi Takanashi 2 2605 HUE 44 20 International oymposium on Mobile Information Technology for Emergency Response Mobile Response 2008 Bonn Germany
106. 50 1 1 9 4 3 7 5 3 CAFS CAFS
107. 1 3 2 4 2 3 5 1 1 1 1
108. GRE SE gs HH NV TE 1 T 8 fus RH NT BAME CEMS ODE IE nnm e 2 3 OERE
109. di 21 22 nnm e 6 II 18 4 23 3
110. CVP 5 CVP CVP OU CINES t 1 000s t 0 600 s t 0 360 s B 5 i a LU t 0s b 1 0 4s
111. o XJ yO Illa b 10 A mu 2 6Q B AT 6 1Q 5 Q a DC100mA 5
112. 158 Ix A 167 206 UUDD e zi M LLL M m a I amp i 172 ISO TC21 SC3 ISO TC21 5C3 WG10 173 ISO TC21 SC3 WG20 178 179 i
113. 3 nnm e 7 18 4 23 3 A gk AAWA ALAR EIRA KARE AAZ ER RDE RDF Hr
114. M 100m 905 80m 705 605m 50 40m 30m 20m 10m 1 MTM y dil li nU TEENS x M ellos ZN GAS A JAN A 1 1 9 BL 1 ogogo e 1 M We b w c REESE R H gt 3 W mb Se 0 E S k t H m n X ud KZ e dE W c J 7 Bx s e s o ajo 4k 3i 3 4 di 4 4H EE EE co m C 7 nnnnpnnpp EEEE
115. 195 UUDD e d m x m n 50 de 51 de 14 20 9 19 bees boe 15 20 10 8 3E 17 20 10 10 20 10 15 19 20 10 20 di ga 53 22 20 10 27 23 20 10 28 rmm 24 20 10 29
116. AED SW SX E N UUDD e 6 42 73 43 AED AED
117. 0 APTAC UUDD e O 2986 CHP 1682 AP 1630 MS 1266 CHP m 1127 DMPC Th 148 C Tp 299 C Abs Temperature C 0 2000 4000 Time s 1 6000 8000 2 QD IAM
118. xr gt LL 40 DP SE 1 1 CE 2 WAV
119. 1 Opp 3 nnm e 1 2 mmHg 118 56 115 49 119 53 118 54 1 2 y JN jn p rw LIL 3 4 GER 107 nnm e 5 ES Vo N F A get ON p E EE NC Ne C Ps 4 7 i i ps rl i 108 8 ogogo e 20 1 4
120. DA DA DA 3 1 2 23mm 20mm nex 17mm 4 2 RA
121. 2 2 8 Ops a 6 S 4 PMMA
122. nnm e 21 1 1 ad 2 3 E B G J g 9 qi 1 2 3 n 5 2 2t 1 CE
123. 50 kW m q H20 lt A Outcome COz CO
124. mHaEG N sg a 1 147 pes Er IX IND aiti d ogogo e Igi zik 148 nnm e 149 UUDD e 20 P C 1 WEZAJVO TERR 2 D CIE 2 DA 2 R R ORRERA D
125. udi o a T 21 2 5 21 2 10 43 21224 2 EMIL 46 21 02 26 47 21 03 05 48 mas wim 50 2136 HE CFD AM imik
126. 2 3 Tup Heat flow u W 0 1 2 3 4 5 Time day 2 80 Mg 100mesh RH80 100ml hr 50 C ep 200 _ 150 x 100 Ke s D I 50 0 0 1 2 3 4 5 Time day 3 30 Mg 100mesh RH30 100mlhr 50 C DTBP DPT
127. 209 UUDD e 5 20 5 o os e EE 11 20 6 we m 4 RE YT i ue 4 m Ft ET 4 zHrYaeoSstk i u 20 20 8 DVD T n m 4 i N m zi N
128. 2 20 19 A B A B A B X 100 TH 3 20 26 218 UUDD e 4 H21 3 30 R RZ x H E dh HE d E JE m 9i S5 TET uo F
129. 1 840 73 5 Ani KARKKI BI SK fur 0 Sel uc d f EH
130. I I 5 6 A4 3 J 1
131. 23 6 UUDD e 1 e e Ex era a WR Pinpointing the place of origin ofa Osamu Takizawa 22nd Int 1 2008 3 25 cell phone emergency call using NICT 3 Conference on 6v9 20 active RFID tags Masafumi Hosokawa Advanced FDMA Information Ken ichi Takanashi Networking and Applications Experimental Study of Floating 2008 4 14 Roof Integrity for Seismic Sloshing API 73 under Long Period Strong Ground Motion 23
132. 4 1 1 2 IE 3 38
133. 25293921253 4 5 6 Ine X 140
134. 9 A Test on Effectiveness ot Wearable Thermal Imaging Camera System 150 183 CN NIST FDS
135. 9 ik 1 10 23 1 2 3 1 fk 89 2 3 4 COME SN QUEE S 3E BE th 5
136. 7 6m nnm e 9 7 1 30 1 H 2 3 3 2 3 3 6 v R3 i A R W
137. 2 977 wvW 1 2 3 PIV
138. 1 2 Jes 1 2 10m 15 200L min Dry ig amp 100L min 30 50L 5 Wet Dry Wet Wet Dry 3 5
139. 4 1 3 0 4MPa 2 4 0 7MPa 5 1 D 5 2 CE 6 6 1 2 3 4 7 102 nnm e
140. H18 1 2 19
141. 3 8 109 0 5 1 2 3 2 1 4 ps9 s
142. 0 2m s 10mm 7 3 PIV 3 RE 19
143. 100 nnm e 2 3 4 101 UUDD e 20 1
144. 1cm 3 7 6 8 7 9 4 10 nnm e
145. K NET KIR A 184 E 2007
146. 730 15s XE 19 2 2 1 2 El 1 Ani 86 2 2 3 13
147. 2007 7 2008 3 182 20 10 14 FORUM2008 2008 9 16 19 FORUM FORUM
148. I AVM 2 4 1 7
149. 2 19 4 1 m d 21 3 31 20 3 1 22 3 31 3 sk 20 4 1 22 3 31 7 22 3 31 BE JI ERR WW 22 3 31 pe A 22 3 31 22 9 30 E Hi Am EH m vh Xm E 4 21 3 31 Br 7 JSPS 7L Vasily Novozhilov UK 4 Ulster Univ 4
150. n Bd 11 1m z N El 12 HI MU HHHHHHH 11
151. 131 2 fm 2 50m 3 yE Ei RN Ex 7 3 1
152. 3 e e e PCM e e e e e e e CFRP e e M5 me A Oo ON EM GIOTIL AFTCCTION Got anio A WT i fi tl Sa TALAREN tot NoRT emam mi NN 20077057 DE 19 a 0 0 c BM ELITtOATCOUS m Clm 2rt Ah sam
153. FE i er AETI IL ZIT MEK i 1 BAJ mnmpkmhDBoH HRRORHTHX MERC ia p y m 1 a tie 1 1 3 ms Se OM o 8 E 2 49 nnm
154. 54 amp H de n S p 26 20 11 11 28 20 11 26 TS J 29 20 11 28 TRS 30 20 12 11 56 E d 31 201212 EP 33 20 12 18 KK BESEBQSR CdHCO UA I ERMET ReI S2mHE Z777HF z A TEME o Te 196 WH R BN TS E p b UUDD e NECENITTIMENTITENN 20 4 49 21 1 16 21 01 20 1 Hi Ix V of Floating Roof Integrity for Seismic Sloshing under Long Period Strong Ground Motion
155. FRIGO M ARBRES aA OBL 85 nnm e 3 1 2008 10 23 24 56 T EM 28
156. 4 20m 1 3 vw 5 a O Te Om IW 30m m a 10 4 w 1 400 350 300 250 200 150 1 2 3 4 5 6 7 8 9 10 11 12 h 5
157. _ 22 3 4 5 1 fpc 2 3 A
158. 18 21 20 1400 1200 1000 1 7 280 1 0 5 lt 400 500 600 700 800 900 s 0 100 200 300 ppm 0 CO CO 3500 0 45 0 4 n 3000 34 CO2 0 35 CO 1 L 3500 03 3 E P E E i id L 2000 M AE 0 25 La w MN gu E d uk 0 2 m 1500 B 1 1 0 15 gi I e 1000 0 1 1 l EERE 500 0 05 i 0 3 4
159. 9 21 1 FORUM
160. 194 UUDD e 2 1 AE ERETRIA D 4 aot rim 0000 Jo Bm amp 7 20 4 21 PT 20 4 25 4 20 6 6 5 20 6 10 MEN Be 6 men fmR 7 20 6 18 2003 8 2074 20 7 4
161. 15MPa 3MPa x120 1 00 400 4 x 10 2 18 2 4 5m 4 1 1 3 4 330m 1 400m 5 UC 15m 8 ogogo e 6 7
162. FP AR AFFF AFFF GS ALL FOAM E8 T40 N2vsN5 AFFF RE8 N2 T40 1 s AFFF RE8 N5 T40 1 AR AFFF RE8 N5 T40 2 FP RE8 N2 T40 1 AR AFFF RE8 N2 T40 1 e FP RE8 N5 T40 2 90 x 80 70 t 60 3 8 50 8 40 O 30 20 10 0 0 500 1000 1500 2000 2500 Time s 9 N2 N5 40C be E dd er dt ee LT FT D LT Y MO Qt o Ww EN irat PL Th Led gita airo s i De LI Yu xn EET Pr x A res FT Lh ee s TE EITT p eH I Ta HUC EP EON 1 aat a e rat roa ht TF TT Te nt RP TT E T H Ot AF3 N1 100 90 80 70 60 50 40 30 20 10 0 AF3 N1 2 AF3 N5 000 20umit unu unutr sec nnm e 2
163. 30cm SEO CLCAUVC EASS 2kg 5 1 70cm 2 200cmz 3 Bd 1 EE 5 6 2 17m F 6 200 2 X 753ppm
164. 110 8 6 80cm 40 N ee S 30 lithium c 4 20 5 a 10 Silver oxide Alkaline 0 as 0 50 100 150 200 250 300 350 400 Temperature io 7 MCPVT
165. 2 3 A 5 3 m 1 AED AED 2 94 ogogo e 3 AUN WDE CHARH PNIS Abr WELHBEE ARRA ER Ha EON URRE
166. 6 4 3 4 42 58 D D 8 O 9 10 D AEDO 50 27 54 AED 50 3 6 AEDO 50 24 4826 AED 50 8 16 D AEDO 50 11 22 AED 50 19 38 AEDO 50 16 32 AED 50 8 1696 AEDO 50 8 1696 119 UUDD e AEDO 50 6 1296 AEDO 50 15 30 AED 50 8 16 AED AED 48 5495
167. Korea Transportation Safety Authority 216 2 UUDD e k 1 1 1 Go 2 3 Zo ER 1
168. 6 1 2 3 nnm e 4 5 6 7 8
169. 20 12 9 Tr JU Om 15 9 2
170. 6 4 4 nnm e http www shoubou hiyarihatto soumu go jp 5 1 5 2
171. 6 21 1 3 FRIGO 4 50 6 1 3 2 3 FRIGO 4 5 1 1 4 2
172. Cs ogogo e 8 3 5O Q Q 4
173. ogogo e 538 15 5 1 4 2 Y Eco quu AU
174. E 85 Vol 47 No 3 264 pp 154 157 2008 3 Vol 47 No 4 265 pp 218 222 2008 79 UUDD e 2009 27 pp 74 79 2009 1 20 2 Safety amp Tomorrow pp 5 9 2009 3 85 pp 153 161 2009 3 32 2
175. 5 0mm 1 10 0m s e 3
176. 14N301 L 6m CRIB 26kg 3 dg A1 20 30 29 4 18 28 sal 16 EE a J 0T 10 lg m 15 a 4 4 4j 2 i 0 100 200 300 400 500 B00 TIME AFTER IGNITION t s 28 15N304 L 3m CRIB 55kg 2 20 20 18 18 14 16 1 T E 2 8 O 6 t Ja L la 100 200 300 400 500 600 TIME AFTER IGNITION t s 1 62 0 14 14N301 L 6m CRIB26kg 0 12 0 1 g p dp dz SQUARE OF BRUNT VAISALA FREQUENCY ng 0 05 20 0 04 0 02 18 Q 16 0 02 14 E ioc 10 O B za 8 m 4 2 0 100 200 300 400 500 600 TIME AFTER IGNITION t s 15N304 L 3m CRIB 55 kg g p dp dz SQUARE OF BRUNT VAISALA FREQUENCY o 665 coo HEIGHT H m D 0 100 200 300 400 500 600 TIME AFTER IGNITION t s 2 21 20
177. 2 2 D 18 19 D pes ma am ee d
178. 28 1 30 87 60 70 50 31 D 3 1
179. 228 2 3 4 5 6 7 IGUS EOS 8 UUD
180. QOO EN g 20cm 45 75 35cm HU 18cm C cm 35cm HUUUUHUHUHHHHLH JI 103 nnm e MITES M i i B E r Fs Se D vom eec 1 2 5 6 104 UUDD e 20 1
181. 184 207 UUDD e gt 3 3 Eu 35 3 2 _ x IR F EEN 59 9 905 er EB 1 20 10 4 15 10 A GH X 4 35 3 2 1 21 3 20 EATER
182. 1 2 3 6 3 7 9 4 1 5 1
183. 70m3 lt 4 4 5 500ppm 97 1 2ppm 10 260ppm 20 100ppm 30 40ppm 30 Pici 1 3kg 2 4kg 3 2kg
184. 2 20 3 Bxcel 4 21 1 2 3 4
185. OO e IIHHHHHHHH el HUUUU0U0U000000 HHHHHHHHHHH LHHUIHHUHHHHHHHHHL D Udututl HHHHHHL eiDni unmnuuuuulu LHHIHHUHHHHHHHHHL UUUUUO ooo000000000000 e 9 9 1520 9 151573 9 Oit ERRER E GE di iL JL Ll APT 205 UUDD e 5 18 4 23 3
186. 15 9 30 60 181
187. 191 UUDD e I HEB CIS Laurent Max France Study on fire Ecole des Mines d Ales dynamics of biomass gasoline KE 21 1 9 An Analysis on the Na WookJung 7 21 2 19 Factors Decreasing of Fire Safety Performance in aged building 3 Building and Fire Research Laboratory NIST 2 Health and Safety Laboratory HSE E ES 6 E N S M A Universte de Poitiers Urban Safety and Security Research Institute of the University of E Seoul LO LD i lexas Engineering Experiment Station Texas A amp M University e 211 25 Samcheok National University 16 3 15 10 7 21 3 14 1 Institute of Chemical Processes Seoul National University 4 20 2 1
188. 2 DP 01T Faj 24m 440ml 500ml 10 550ppm 30 3 40m3
189. FP AR AFFEF AFFF H pts 30 90 AF3 N5 000 80 25 AF3 N5 059 70 r3 AF3 N5 000 X f o 20 gt AF3 N5 059 R 60 c 195 40 C3 10 30 20 10 0 0 0 300 600 900 1200 1500 1800 LA m 10 24 20C 40 60C 10 CRTI ETRO i8 x
190. 3 Bd 1 1 100 6 2 nnm e 1 2 2 4
191. M f 5 E f E x f F no J FIJ fi E amp S9 x H B X 4 HE R Bj Hi A E 219 unu e mo REP T mM 5 21 3 31 6
192. 3 UUDD e 500ppm 1 Oppm 1
193. LED 1 2 3 3 1 114 2 360 4 3 5 4 6 5
194. SEM E7749 p SVEMPEUY S 9 CX I CAO CH CX ogogo e 0 3 4 A4 g
195. 2 3 Jh n aL Aso um ZU ux vi W dx x AL LOL 217 UUDD e
196. FEHN BUCO fx lt WA EU F rm JG xe 3eh Ei 155 6 CD a 1 L2 1cN m
197. 1976 186 Ue us 69090 7q TUS 1978 25 UUDD e 7
198. 112 nnm e 4 113 UUDD e 20 MIRER AA HEIR OBJE ETE B Je V8 1H D A 1 9 2
199. 119 4 3 18 3 28 1 1 oa 2 Z3 DA GRIS EGRE bio RED
200. 10 21 20 1 21 02 21 ED 3 1 2 137 3
201. 2 170 HH A 4 mm T 2 3mm 1 2 kg LEMERE I 3 1 2 3 4
202. 59 1 2 3 5417 7481 9300 e TERI 00 093 amp C 10 19 C 20 39 40 59 60 74 75 A E a6 B FEFE m zb i m pea 5 7 0 Z 60 R 5 0 O 40 lt 3 0 Woo H 10 0 0 50 ER fam
203. 1 CPA CPA Een 10 Lf e 77 10096 1 1 2 B2 3 1 1 100 t 3 10 14 22 7 E un 11H 28H 1 99 7
204. I EER T O V Cr Ee Em IT 0m i I e Em 62 es 3 2 Zo Aes 4
205. 11 2003 9 j 82 x
206. B2 zi duod E R O J B f amp Jb 4 J ME 221 UUDD e 2 1 21 3 31
207. ln 2 3 4 5mm 5mm 8 D 1 ogogo e 2
208. nnm e 3 O SERT CAO me BU EY 1 SO5660 ISO9705 21
209. 2 2 3 4 10 U 7 18 174
210. WEB119 21 1 2 Ue TS 20 4 3 WEB119 WEB119 UUDD e 1 20
211. gy 119 19 4 23 3 PU
212. ae H 21 1 3 C
213. 1 1 O 6 NN 2
214. 3 3 2 1 2 GB f LZ SETS dS RO UC REID VC B8 IE 3 4 5 6 4 1 2
215. K 2 4 3
216. Lx W p X va E UR osea ew s we m mew 3 cin umo we oo ow 176 nnm e 4 indui H amp poop gl wl owe RBO CE RURGEUN pw sp sw ae KBO E Eid id 7 8 8 ERO CE RIE KF 1 0 10 20 30 40 50 60 2 foam Exp Ratio 7 s FN adhesion weight g 0 600 1200 1800 2400 3000 time s B 3 177 nnm e 4 E If TE m d E P m mA VT We E Ba a Tb F pe e i n 7 Wet 22 Dry 5
217. E KM A JIN E 59 9 905 lll 20 D 7 n EFH X D 20 7 29 20 7 31 B 2 20 8 10 20 8 12 8 20 8 24 20 8 25 JFE 20 11 18 20 11 19 MN i dii 1 20 7 4 20 719 20 7 29 20 11 7 x er e Q2 N Ol 208
218. 2003 EISE E 9t nu A zs ze A
219. 7 8 y 5 9 Hc 10 pn 4084402 001 K 123 dbl mail TRIE
220. 700 Fa T 700 A 2i 14 1 40 7 9 A 1 005 48 11 2 A 453 6 63 1 14 A 100 9 2 21 A 3 715 mm gt gt cw cape swe ma o x PRB ES HAT 222 UUDD e s RC 4 1 1 251 87 2 503 00 8 3 S 1 RC 3 643 35 1 143 33 S 1 1 284 30 2 128 30 59 11 2 E PR 100 BE SC
221. Bg 6 2 1 2 3 4 5 2 10 24 1 2 3 1 90 2
222. AED ovp sire dier AED AED AED 1 The American Heart Association in collaboration with the International Liaison Resuscitation ILCOR Committee on Guidelines 2000 for cardiopulmonary resuscitation and emergency cardiovascular care International consensus on science Circulation 102 2000 2 AED AED 2004 3 AED 2006 19 2 40 4 19 5 SEITE S AED 2007 20 48 55 6 HEARR ELS AS EC ERA UL is A Vc 18 O E J
223. BP A BR X 576m2 20m 223 UUDD e 625m2X 22m
224. EE EE 2008 5 21 22 2008 5 22 0 23 2008 5 29 5 30 2008 5 30 UUDD e 26 27 e 28 e 29 447 NICT 2 2 30 2008 6 5 6 7 31 FRIGO M 08 2 KOBOMEC 08 i 32 2008 6 5 2008 6 8 Hum MCT
225. 0 4 5 9 0 4 5 3 1 3 10 6 10 A 17 14 65 4
226. 10 0Hz 80 13 6 EWED
227. nnm e 2 1 Il YU HE G us 0 l l l 1 4 E a E 7 oi 8 Pa s Wi idt te en K al dA e 0 005 Ea Sao AA 0 000 X m m FE 0 20 Ee 0 15E l FE E un amp 0 10 x F E O 05 n4 T 3 us EM E TU H m e 0 00 jr A HTM T AA wt t E 0 05 HHH hH LH 2 5 E ci o 12 14 J6 18 Oha 46 48 50 52 S4 56 58 60 Y m Y m 1 2 CE CP 235 UUDD e 5
228. AED 1 AHA 2000 z Automated External Defibrillator AED AED 16 7 AED 16 1 0701001 5 AED OK AED AED AED AED am HY Ei
229. RHR EK IURE BHE HEA 1 1 1 2 3 4 jx tb WA e scope quce 5 EZRR
230. 2 AX 3 50 p a 40 ex o mE a e Hu RED nid nad E 30 Pa A fus ae ul 20L e MARAM 3 a 10 95 Le M l 0 V M L 3 0 00 2 00 4 00 6 00 8 00 E 2 ES IL UI TREJ im Wiii ie l MEH 50 6m s 12 3 30 Ca
231. 20 12 21 1 30 162 12 1 65 6 6 200
232. OP BER E 19 2 1 9 f
233. 4 2 5
234. 0 1 MPa 80 0 min 1 1 8 Visual Basic for Applications VBA 55 18 4 22 3 2 2 4 4 2
235. 3 ogogo e 4 5 5 91 ogogo e 4 9
236. 4 J H 35 3 0422 44 8331 R http www tri go p
237. PMMA L 4mm Bd 2 D PMMA PMMA 2 b PMMA w ems h PMMA 4 9 PMMA 1 20 GAN gt Pex 3
238. EI FH AED AED 118 AED AED AED 2 AED K 1
239. ua NPO uc 197 UUDD e d m m 2 wewe smawe sme E PP inf BJ th 3 ISO TC21 SC3 ISO TC21 SC3 ISO TC21 SC3 WG ISO TC21 SC3 WG6 ven ISO TC21 SC3 WG14 ISO TC21 SC3 WG17 ISO a TC21 SC3 WG18 ISO i TC21 SC3 WG21 ISO TC21 SC3 N nid WG 16 18 198 UUDD e 20
240. 4 5 6 7 CO 8 9
241. 4 1 B f gt pp 179 180 2006 2 Schmieder R W J Appl Phys 52 4 pp 3000 3003 1981 1224s 200mJ Pulse 250ns 1Mframe sec 2 ms b 1 mim 200mJ pulse AE 125u s 1kframe sec 166 ogogo e Metal plate 13 Diffusion flame Leading edge T Ablation Pyrolysis region Dimension in millimeters a D PMMA 2 a b c d e 3 E 200m J pulse w 12mm h 22mm d 5mm 60mm 250 u s e ce ce Slope 0 88 m s _ e c n wz12 mm h 22 mm e Distance from ablation spot m 0 0 0 0 02 0 03 0 04 0 05 Time s 4 167 UUDD e 10 ms 30 ms 40 ms sl ms 80 ms a b c d e g 5
242. J ALERT 1 1 2 19 26 o o Oo Oo 2
243. 3 EE ENT IBET ESI RI 1 17 250 2w 1 nnm e 2 4 3 4 r2 6 A U BUK 28 E 3H A n E 0 B3 P e ii E 4
244. JE X 3 20 4 CT
245. 20 20 3 12 4 226 51 5 10 DOG Du 54 10 1 99 9521 57 4 6 96 9 1 59 vL 59 11 7 61 5 16 63 3 7 11 6 6 20 7 1 1 1 10 20 oo M e 9 10 3 7 10 4 1 13 1 6 13 1 31 13 3 30 13 4 1 13 15 T5 15 16 18 18 e ee ee me m 20 4 1 20 10 1 pnt e g 1 13 30 30 5
246. 6 6 6 ogogo e 2 BE mE 6 8 21 21 11 H 25 H Ok 26 H
247. 104 10 k i n Xm ournal of Electrostatics O1 10 N Mm Am m m Am e E Ii 109 EE 8 B SERES I o Oo ON Ft Hu xm 203 UUDD e mesg 113 116 117 118 122 E 125
248. 2 3 1 3 10 HHHHHHHHUHHHHHHL I 18 D 20060 0 0 DE 19 D 20070 0 0 20 D 20080 0 0 0 O 210 D 20090 0 0 22H 20100 0 0 B 10 UUDD e 2 18 4 21 3 WARA H14
249. 1 2 PMMA UUDD e 1 1 Wi B 2 1 3 5 KARE ZH 5m SEES FS IBS ta 23 Bs m em d di 4 NE
250. Q 3 WEB119 2 3 39 nnm e 5 V 18 4 23 3
251. AR AFFF E8 N2 T20 H85 Radiation a 0 5Lpm m 52 1 0 75Lpm m 52 1 e 1 25Lpm m 52 1 52 1 0Lpm ni 52 1 TN Ra Hi cana auf n T OM ny di i 1 A Radiation kW m 250 Time s B 12 315 Ed 13 100 13
252. 11 5 161 mE misit FS E 12 2 irtir L2 3 ogogo e Rm eut 2 2 RUN 162 BEES R pi Ed 13 DE feli zo 5 56 E LT 45 4e XE CE 2 EET TU 3 wis d m 2 3 1 WE UUDD e 20 FE 1
253. NHK Z 1 1 EP 1 HTF 1 1 1 HW dau dH E E c E HH amp 1 hh E RR 1 k 1 1 220 ogogo e 4 f amp JF E x G f F E
254. 2 156 nnm e DaD M a 2 2 2 2 At 5 1 2 3 4 5 6 1 450 6
255. 9 7 110 nnm e am E i 3 m d M pu Bi um 4 111 nnm e Thr a m 3 L L 1 M I DER 9 uyi h h 1 cali 2E 2 4 h
256. We RO CT Br DE E FI pni 4 1 1 2 3 Ro 4 5 5 1 1 ogogo e 2 JJ o e DAPIBUS 1 3 4 5
257. 2 ROC 3 OFF 4 2 5 6 4 20 11 27 215 1 1 2 3 4
258. AED 84 AED 20 AED AED 37 AED 48 AED 2426 AED AED
259. 3 2 HH 6 3 nnm e 2 2
260. 1 4 Ces LL 2009 1 1 66 236 COE 185 21 3 30 37 47 4 1 21 3 37
261. 20 ISSN 0287 069X 62 1 20 80cm II 20 4 20 4 20 10 21 1 ABCZABORRBERUAEDIHSTHIORE 9 21 3 21 3 Eis ER
262. 20 11 11H OP BERE ERAT E Z RAR NERE 1 700 UUDD e 32
263. 3m 100 180 HH L 3m 100 L 6m 2
264. UUDD e 4 18 4 23 3 2 1978
265. AED rne Er JH R 3 AED CH 100 ues uar Xerox UUDD e 1
266. International Review of Chemical Engineering Journal of Loss Prevention in the Process Industries pp 89 96 2008 11 pp 467 478 2008 12 Vol 12 Issue 2 pp 137 148 2008 pp 276 284 2008 Vol 1 No 1 pp 117 120 2009 1 Vol 22 Issue 1 pp 1 6 2009 1 FMT Safety evaluation of sewage sludge derived fuels by comparison with other fuels pnt e BR E 2 D WS Xin Rui Li Woo Sub Lim Yusaku Iwata Hiroshi Koseki Wb IAK NICT 2 NICT 1 1 E AIST
267. 200 AED AED 1 TO 2
268. A6 6 426 0 85 MW A7 7 303 0 76 MW A12 12 195 0 90 MW 3 2 5m nnm e LIL HHHHHHIH OHOOO M _ Lz L ER 10m 7 4 57 nnm e 10 R 18 4 23 3
269. AED 1 AED 18 O 13 120 AED 14 A O 3 AED O 24 A Cu LU X155 4 AED O 8 X O 3 5 O GO TERI 1 AOR O
270. 1 2 4 1 2 7 7 CH R I 9 3 2 10 2 1 17 Ad
271. 2 16 RJA 15 Il 1 Hr
272. E2200mJ pulse w 12mm 232mm d 5mm 75mm 250 u s w 12 mm h 32 mm Distance from ablation spot m 0 0 02 0 04 0 06 Time s 6 E em z Qo E Sam r c q Baum Qo o e l Probability of laser extinguishment 0 20 40 60 80 100 120 140 160 180 200 Laser energy E mJ pulse 7 168 Laser energy E mJ pulse nnm e rE 5 blast last Pyrolysis area Unburnt area 07 6 5 4 3 2 1 0123456728 9101112131415 Distance from flame base to ablation spot d mm 8 169 0 3 0 5 ogogo e 20 XH 1
273. o asn 5 21 1 5 21 2 5 pnt e 21 3 11 exe 20 6 3 20 6 14 2 7 20 4 3 zi AE TE SI Pn 5 Eg E th B E JUL RR RR 6 6 fR IR fR IR 20 6 3 20 6 16 21 3 19 Wm AE E ZR BE BE NU BE H
274. 2 52 nnm e 8 c
275. 2 E 25 1 21 96 Jk FRE MAF REFS ASM A US 5 0 3
276. Qo e e iaaa e e a k Bkit fii 3 e e 1 1 2 A ISO Bd 2 2 x H BR OD J 3 TI ee Uem BN 2 3
277. UUDD e 2 1 1 0 01g 35x30x50mm 20C 3 GAW 1 2 10 12 1 WE 0 32g cm3 18 2 1
278. AED AED QD 6 16 AED AED AED 22 38 AED 12 16 AED 3026 AED 6 44 200 WU Es 1 35 3926 11 2 AED 77 36 E12 3 l AED 22 25 13 4 5
279. Xm 137 m m D Q2 C Ne Co 4 ad m Q N HA i 8 LAT PR S FER 2 0 144 Q CD 145 WG F 147 35 IIT f I V R 148 KEH RDF 149 150 p OQ V 205 UUDD e mesg 151 R 153 155 20 20
280. ogogo e 5 VI 19 4 22 3 1
281. 32 2008 9 18 51 2008 9 20 HHA s Bid Tewerson PMMA 1 amp i X 2 8 1 X in EH X X Effect of a Facing Wall on Facade A Yanagisawa Tokyo 9 2008 9 21 Flames University of Science 2 9 26 M A Delichatsios University of Ulster Yee Ping Lee Nanya Institute of Technology K Wakatsuki 66 UUDD e WR ER 2008 9 21 Underlie Rep
282. 3 3 APETI UUDD e ETBE 19 ETBE Ethyl t Butyl Ether CsHsOC CHs 7 ETBE 100 ETBE 100 1 ETBE ETBE 2 ETBE 1 A
283. 4 10 n 1 5L 5 2 3 3 2 K 3 Dry 1 3 175 Dry K 4 1
284. 0 5m 0 3m 3 427 36 50 9 M2 57 51 4 1 2 20cm
285. 2 1 2 2 1 2 2 2m 1 2 95 pa JURE EE Hg UUDD e 20 zs TE et 0D BH S 1E SERT AGB UL PB ARZT RORE HPE EISE 1
286. 3 2 129 1 15MPa 120 10m 2 X10
287. a 2 D Google Earth HHHHHH UH 7777777 DEPE REO 3 J ALERT 27 ogogo e 21 1 2 ALERT ALERT 1
288. 2 E 188 UUDD e 5 6 5 21 2 19 178 1 1 2 3 4 E 5 EE 10 6
289. 2 20 7 31 140 iE 1 1 2 3 RMEL 4 187 UUDD e im 2 5 6 3 20 9 25 127 1
290. OK KARE 5000ppm ISO TC92 SC3 10 nnm e Du
291. 1990 1 58 1 5 2 2 30 70 3 4 50 Ed 4 3 HB BRI 1 60 10 nnm e 10 3 8 0 60 S y oj Mg qa g q 4
292. 33 6 THO Ahs TV 1
293. 21 21 1 20 2 3 Bluetooth 4 21 1 2 3 Wr xz ToC nnm e 9
294. 5 5 10 5 1 6 1 10 2 20 3 30 300 7 6 1 139
295. Ed 2 nnm e 2 Cit LL 43 45 7 2 OO 8 GPS 50 REID 10m 2 Web OD DB 3 wa000000om e HHHHHHHHH 2 54
296. 0 2m S 1 3 min nnm e BE 6 CVP A 3cm A B PIV 3 PIV 7 3 PIV X 6
297. 20mm 30mm 4 nnm e 12000 10000 8000 dp 10mm M 6000 20mm x 30mm 4000 2000 0 0 2 4 6 8 10 12 14 cm 13 10mm 20mm 30mm 12000 T 10000 8000 I e 10mm 6000 4 20mm x8 30mm 4000 2000 0 2 4 10 12 14 EMAS orn 14 10mm 20mm 30mm 10mm 3mm 15 SAMT 5
298. 51 1 2 10
299. 3 40 H UUDD e 21 4 1 114 136 86 65 87 111 3 3 mama EE O ETT EE sa m x 2 Ta CT nap eps
300. 1
301. 5 71ppm 13 10ppm A BE EX 3ppm nnm e 1 7 4 5 OU CN SO 2500 ISTER 1kg 1500 1 1 900 1000 793 10
302. 50 4 200 AED 1 2 AED AED Ed 2 4 2 3 AED 3 3 1 AED AED 4 AED AED e 3 2
303. AED 52 AED AED 4 AED AED AED AED
304. A4 fe 21 21 2 1 UUDD e 5 18 4 23 3
305. 1 2 UUDD e 5 Il 18 4 23 3 2 3 3
306. 4 FAX 5 6 nnm e ID 1 X 116054 IBIEEM HE mum EF mmu zog 04 75 1137 00 EALE TW scamrriclEMECHNETE ZATEN AS tiit ERAI RAREN MIPTIEEXOR LE ni mx Een Es Pu B 5 A Bud Biltiiu HU HH oed 131508 6 FAX E 21 20 1 FAX 42
307. Bd 2 2008 11 13 P 11 15 ERRER BEA Ze NICT 1 20 2008 11 13 7 11 15 2 2008 11 19 7 11 21 3k B IE BP NICT 1 2008 11 24 11 27 2008 11 25 7 11 28 Fire workshop in Tokyo by JNES 2008 11 27 11 28 70 60 pnt e 2 H HE IR L MAX Ales
308. A 36 40 43 46 49 53 55 58 20 21 3 31 21 21 4 1 82 86 92 94 UUDD e 190 3 N SD yz AS x gt E 2 1 m B 3 192 1 212 2 212 195 5 213 1 195 1 213 2 198 2 213 208 214 1 208 1 214 2 209 2 216 1 217 2 223 1 217 3 224 2 218 4 224 3 218 4 219 3 226 5 AFRE 220 1 23 20 226 6 220 20 228 2 222 1
309. 20cm 6 Wet jig Dry 7 Dry 4 UUDD e mols 1
310. II CD D I OO e 11 17 24 26 29 34 61 61 73 77 80 81 9 10 IV 119 V VI I UZT vY01 EER A ER RI CS ES
311. 20 6 20 7 TT ix d 20 8 20 10 20 11 21 3 TV 20 _ 1 l 1 2 CD 4 5 1
312. 3 6 4 fV HI Ee CCS og i 8E E EE 2 227 UUDD e 4 20 1 105 2008 9 1 2 3 4 A237UZ2 amp a O a A U 7 2 7 Z 0 n 68 5 106 2009 3 1
313. har 3 FAX FAX GIS Ed 3 41 DB 4 EOR V OMRE w 1 2222222222 111111111 234234 2233434 33333 2222 3 PC PC 5 amp
314. 1 239 i mENHIIO OEXNSNEOHS HRU ETDERGADSEERN FESSA ATAF A T BETUSLEH ODUIE Riirirmenmgdg me i 1 1 20 19 2 ogogo e
315. H14 H15 H12 H19 H19 14
316. nnm e 14 21 1 FT IR 15 APTAC e ARSST 15
317. 6 7 40 8 9 10 50 11 10 50 EE JE BEER BR d BR YR T 1 3 1 3 1 2 CRISE Ee Cs Ug BE CE
318. 1cN m L1 N 1 5N m 2 1cN m ETRO Je L2 100V 400W 1 000W 1 400W 10 4 20 ogogo e 66 99 N L2 L2 1 L2 3 EUs b 22 GM 14A OFF 1 5N m N 1cN m RDJ L2 1 7 1
319. 3 1 3 HPV 1 3 a 3 b 3 c 3 d e 3 f 164 3 4 4 0 88m s
320. 11 CD a 9 ii DC6 4V 10 4Q DC6 4V 6 4 V 10 4 Q
321. 4 1 581 CCCo 20 2 12 20 AC
322. 12 35 2008 527 208 530 208613 208619 2086235 11 2008 7 4 5 12 200 78 1 13 2008 79 5 14 5 15 200 715 37 16 2008 7 25 1 17 2008 730 15 48 18 2008 7 30 11 47 19 20 2008 8 1 15 21 2008 8 2 15 22 2008 8 6 52 23 2008 822 53 28 24 2008 827 14 25 13 26 2008 912 84 60 27 2008 9 19 18 28 200810 1 2 29 2008 10 3 84 52 200810 9 30081040 20081014 214 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 pnt e 2008 10 16 54 13 5 nil 2008 11 28 2008 12 9 2008 12 17 2008 12 18
323. 1 6 AE AE AE N N AE DUI D 200mm L 0 1 4 5m 50kHz AE 30kHz JA ep y fam N N AE 1
324. 204 1 1 133 nnm e Lus Kk ER A A gt Ua UNUS x JE 1 p JEN f f i ES T pipi B E I 2 2 134 nDmm e 1 I _ 2 135 UUDD e 20 fc JON 1 1970
325. 126 48 o n DA DA DA DA XI XI XI XI XI XI i 119 120 D 123 124 129 ISO TC94 SC13 m m m Q2 N N OO oo 204 UUDD e 20 EE EH B AUD AU 134 20 135 FCV y 136
326. 2 3 lt E 173 ju c
327. N Canan EA i d a nnm e 2 PDF DOC gy o ON o 2 NBC
328. KA MHR 1 ERRE R E NICT Bi 1 AIST ABS KA EERE R E 442 NICT 1 26 Fire and Materials pp 107 114 2009 1 Vol 33 PP 187 200 2009 2 9 2 pp 102 112 2009 2 9 2 PP 113 129 2009 2 9 2 PP 130 147 2009 2 9 2 pp 185 199 2009 2 Thermal characteristics of Hydroxypropyl Methl cellulose Heat fluxes on opposite building wall by flames emerging from an enclosure 3 pnt e H Bie AIST Woo Sub Lim jae Wook Choi Pukyong National Univ Yusaku Iwata Hiroshi Koseki Yee Ping Lee M A Delichatsio
329. 100 90 2 80 X K uw UP lc p 5 60 f AAA 5 90 y C pe een 30 8 20 ZA Z solution 5 wet foam X 10 dn foam 8 DO 1 2 4 g 6 7 8 time min Ele 1 2 7 E Dry Dry 178 UUDD e 6 2 8 20 4 8 1
330. 19 8 28 22 3 31 aH 7 Z5 Tr Tg A JH kr Ir zx 19 9 1 7 21 3 31 193 UUDD e T ea CEEX 1 H18 H20 20 H20 H20 4p RE H22
331. B IS JN JUS HE ANER R 1 ft 14 AER FH 2 IA 2 els 46 JD 9 qo V pet 2008 12 3 2008 12 5 5912 7 106 107 109 H 111 RFID zd iB fir ze FH U 7S tir f pnt e 1
332. Push the electronic shock button O Other C Thank you for your cooperation 19 124 ogogo e 3 19 7 4 9 6 18 47 47 5 2 3 133 100 146 100 16 D I 4 NN u LE 1 if A B 1 2 125 nnm e BE 3 4a TH E CASE 8 There is an emergency patient zrABmnrvrftT There is AED beside emergoney patient YvThk Le56NZCAEDERno5oSZXTY AED Automated External Defibrillator is machina which gives a heart electronic shocks 6NCNS4SL552 tL4 A tT5NNtrIz92cukbTEMTtT You use th
333. 2 28 nnm e 5 Il CD 18 4 23 3
334. 2008 4 23 8 lt 4 25 Characteristics of heat release of Y Iwata The 3rd 2008 4 24 magnesium particles measured with H Koseki International 1 25 high sensitivity calorimeter Symposium on Energetic Materials and their Applications ISEM2008 2008 4 26 2008 2008 5 21 j 0 22 ETBE 61 1 2 4 19 2007
335. 189 UUDD e Il 1 N 1 7 1 20 4 13 API 73rd Spring Refining and 20 4 17 Equipment Standards Meeting 2 73 OECD IGUS EOS 20 9 15 20 9 22 SP FORUM 20 9 20 9 20 9 26 Fo 2008 IEEE RSJ International 5 20 9 26 Conference on Intelligent Robots and Systems IROS2008 2008 International Symposium 20 9 28 on Safety Science and Technology 20 10 7 API 2008 Storage Tank 7 20 10 10 Conference 2008 20 10 12 14th World Conference on 7 20 10 17 Earthquake Engineering 14 190 UUDD e 4 EJIE 21 3 22 2008 1 12 21 3 29
336. 228 1 205 2 229 UUDD e W 1 E A 15
337. 3 1 35X30X900mmX144 A CAFS Wet Dry Wet Dry igi sigc 10 20 X Wet fic Dry 22 UUDD e 4 1 3
338. P 1 0 0 lt P lt 1 8 Pex 0 Y Pel cg ew 3 3 8 9 wew 8 7 gt 8 w 3 4mm P 1 165 Emin 760mJ pulse 9 10mm Emin WMI d Emin
339. sfa nd zs 800 753 iE e 413ppm min s 700 ATE My Y i u z 600 a _ E D amp 500 W End gn W 400 E 300 200 19 3 5 100 71 5 71ppm 24 3 0 0 5 10 15 20 25 98 nnm e 1 3 eir Cs 5 6 99 nnm e CO 5kg 2500 2 1 a
340. 16 2008 12 24 72 2009 2 5 3 2009 2 6 2009 2 6 2009 2 17 2009 2 23 14 2009 1 28 2009 3 2 85 2009 3 10 2009 2 25 2009 3 11 TE 215 38 21 74 34 48 8 40 28 10 30 2 71 15 50 53 1 2 5 2008 7 2 I 11 2008 10 22 5 f I f f 5 f 19 2009 3 12 ll DUDDO e Li CITECH s amp amp ESL X 5 LA Jt v IU A b JICA JICA Hoseo JICA BEES Fire Technology Institute KICT
341. 2 ENEEE 0000000 3 0 HHHHHHH amp TXW 74cmcgtiht TCO CE S dR HHHHHHH 1 TT n emeas nos aun men me EE fw dm I HEEL 2 a 5 6 o COT v Rn 00123 9 mr IET R T 1 AP EO TIUS ia a aaO imus I 3 OO e 4 4 7 A 2 R 4 10 3 DUD e 977 I Il 18 4 23 3
342. 20 3 2 21 3 212 UUDD e 5 1 ET A a ente PP 2 2 E 1347950 5 K 213 0000 e 6 1 2008 4 18 83 48 2 3 5 39 2008 5 16 7 10 34 6 43 2008 6 13 3 2008 6 19 19 10 2008 6 23 21 2008 5 12 2008 5 14 2008 5 27 2008 5 30 OO 1 NO TO 1 OO e 30 2008 10 9 20 31 2008 10 10 26 32 2008 10 14
343. 20 4 1 192 UUDD e 7 mumga 1 18 6 21 21 9 30 3 18 8 1 B rer n 18 10 2 Mm du 18 12 1 Mi 19 4 1 i 19 4 1 19 4 1 19 5 1 21 3 31 FRIGO D 19 5 7 22 3 31 11 ETBE
344. 4 8 5 0Hz 10 0Hz 16 7Hz 2 0m sz 4 0mm 10 0m sz 5 0mm 19 6m sz 3 5mm 156 L2 1cN m b 5 0Hz 2 4 0mm 5 1 10 0Hz 10 0m s2 5 0mm 6 30 140 16 7Hz 19 6m s2 3 5mm N7 25 200 EE
345. 8 0 8V HJIC Xm f 23mERSLWJVSCC ES E fEIILIE 3 4 ON 99 10 99 10 20 x 25 1cN m L2 200 E N EAA a
346. 85 ISO TC94 8C13 ISO TC92 SC1 3 WG 202 QO Oo Oo N N 4 QO N UUDD e AE 88 NEDO ERAR n Xm o Xm Xm 91 on jul X Zx O N DA Xm NO Q O1 NO E 1 2 97 1 2 P L 100 101 102 103
347. nnm e 2 GEHE II 1 9 3
348. 1 1 bes Lj 2 75mm 05 mm 3 1 2
349. 143 nnm e 144 ogogo e 20 7 1 judo oco APOLLINA UNT FA Ios 2
350. 3 1 4 145 5 6 ES TT OO Jii x amp Um e SE 7
351. 54 on Xm O1 O1 O1 O1 56 K OT 1 Xm 58 59 Xm i m 62 63 67 RF YA Xm I CN ON 201 UUDD
352. ZEE VN B BB t H HE R 78 No 174 pp 8 16 2008 4 132 5 2008 7 132 5 2008 7 Vol 62 No 9 720 pp 1391 1395 2008 9 151 5 2008 10 PP 337 34 2008 11 Vol 58 No 6 297 pp 8 13 2008 12 Vol 58 No 6 297 pp 39 44 2008 12 Vol 58 No 6 297 pp 45 50 2008 12 Vol 59 No 1 298 pp 48 53 2008 12 UUDD e m ams Dames pass i 2007 2008 25 2008 j 2008 Ed 255 2008 Lessons learned from scrap metal Hiroshi Koseki Loss Prevention fires and accidents during Yukimi Yamazaki Bulletin trasportation Japan Coast Guard Coast Guard Research Center Masahide Wakakura Disaster Information Center Atsushi Terazono National Institute for Environmental Studies fire cube
353. 3 AE 2 0 3 00 200 L00 000 1 00 2 00 F 3 00 Amplitude V 00 05 1 015 20 25 30 35 40 Time ms a AE I N lresuiency i kHz HHHHHHHHH 16 AE 60kHz 30kHz nnm e 17 21 1 2
354. PC PC 235 AITO 3 21 1 20 2 3
355. X NICT 1 BB NICT 1 AIST 2 3 9 9 2008 12 5 12 7 CSIS DAYS 2008 2008 12 11 22 2008 12 17 Je NGA 7 12 19 2008 12 4 2009 2 6 14 2009 3 16 TR 3 17 2009 3 17 2009 3 21 UUDD e Evaluation of various biomass fuels with heat flux measurements and gas vaporization test Determination of Planck Mean Absorption Coefficients for Hydrocarbon Fuels Lessons from the 2003 Tokachi oki Japan earthquake for prediction of long period strong ground motions and sloshing damage to oil storage tanks Risk assessment on processing facility of raw organic garbage Aerial firefighting against urban fire Mock up house experiments of fire suppression by helicopters Flash point
356. 5 4
357. 60 4 14 AFFF AR AFFF FP 3 ERSEL ELR 3 Ce Ay dos dz 4 2 250g scm sans JAUNE SA T 181 OO 8 7C BE V
358. WC 80 5 E BE E 172 JUL PE K2015 pnt e 81 HT FARER wu nnm e 20 4 H 14 4 20 4 18 4 18
359. 4 0 ov 4 3 4 3 3 8 1 7 re Eblast Po 1 Eviass E 30 50 PARAE CHA 8 DO d W Emn
360. 4a 4b 5 4 4 1 AED 100 200 133 146 100 3 4 2 4 42 AED 66 AED 28 47 AED 84 AED 20 37 AED 48 ABD 24 AED
361. fh K means 3 5 6 3 3 3 7
362. g909WV 8UYXR e gowlil WW 1 is s H4 m ese p uz amp ruf Un XE Li EE HH V X di ZY E EE EGRE KE nek a possas ctm E N k cL amp G D G G O amp O CO CO G 6 G D 6 O O s 151 ogogo e A F i 2 0 7 152 ogogo e Tm Da PPO T re 4 153 ogogo e 5 20 22 154 ogogo e 20 ziH 3e 1 Pi CEMILAN GARCu 1 cudwA ROHRER ODTIS TE
363. 3 99 En Cw 30 000 v 20 000 v 10 000 W nov p oum 10 000 V tmn EFi D COD v 30 000 Y JADo v 50 000 Y z00 0rc RC EL pain aore ui 3 3 Hubs cow gap 40 0mc 2 RET i xy M TugXxm Fa HELE HT mE 1 m m z 4 10 5 5Hz m Bx gos 4 atea vw dem kd 10 006 v 1 32 2 Ex xWT 2 2 ETT 3 3 MO ATOW ns 3 Ebra roki E ML MER 3 1 4 1 MELET Om 6 10Hz 2 7 16 7Hz 160 nnm e HIER Fs 75 0ms 8 msg 9 000 V B000 V pce 4v Somy 5 000 v ov 300V por iw OU V K y iov T Do f E 00V 00V e 3000V 7x0 v m8 d GE T Ein j5iDOH V 5 D0D v t 1E 7 000 v 20 lo 4 M E DOO V Er n W 1 npogy isnn 9 10
364. Proceedings of the 2008 IEEE International Workshop on Safety Security and Rescue Robotics SSRR2008 and Rescue in Japan SUE Thermal decomposition behavior of cumyl peroxide measured by FT IR Extinction of Counterflow Diffusion Flame by Fine Water Droplets Topography of Failed and Deposited Areas ot the Large Collapse in Southern Leyte Philippines Occurred on 17 February 2006 pnt e NICT 1 AIST Y Iwata H Koseki A Yoshida Tokyo Denki Univ 1 H Naito Y Saso F E E DHE K Araiba H INagura Mathematical Assist Design Laboratory B Jeong NICT M Koara1 Geography and Crustal Dynamics Research Center 1 N Osanai National Institute for Land and Infrastructure Management fti 1 K Sassa Kyoto University 09 2008 10 21 10 24 Proceedings of the 2008 IEEE International Workshop on Safety Security and Rescue Robotics SSRR2008 10 Zx
365. 1 15 10 8h He X T nd w oL aH pg hom iE ux pE MAR 5 XE A A P T T A R 1 056 6 hIR 0 093 AIR 1 2 v h R n RO o 0 018 o 0 016 0014 lt 1 0 012 i A 001 dei o H 0 008 IE 0 006 B 0 004 0 002 0 0 01 0 02 0 03 0 04 8 WR 3 9 A B 2003 30 000kl A 2003 40 000kl o 1964 20 000kl e
366. 33 2008 6 5 2008 6 8 COSAS T EE 34 i Disaster Risk Evaluation and Masafumi Hosokawa XXIth 2008 7 3 Damage Detection Using Remote FDMA International CAT Sensing Data for Global Rescue Byeong pyo Jeong Society for Operations NICT 1 Photogrammetry Masashi Matsuoka and Remote AIST Sensing ISPRS Congress 2008 FT IR 2008 7 10 2008 7 11 A Wis DEH E 64 UUDD e Effect of Water Mist on Extinction H Naito Y Hagiwara 32nd 2008 8 3 of Counterflow Diffusion Flame Tokyo Denki Univ 2 International OO Symposium on Combustion Flame Heights and Heat Fluxes ona Yee Ping Lee Nanya Building Facades and an Opposite Institute of Technology Building wall by Flame Emerging M A Delichatsiosb from an Opening University of Ulster Y Ohmiya Tokyo University of Science 2 K Wakatsuki Heat fluxes on opposite building Yee Ping Leea Nanya wall by flames emerging from an Institute of Technology enclosure M A Delichat
367. K 53 18 4 23 3 19 4 o ARTD 20000000 HHHHHHHHH HHHHHHHH 5 1 CR 20 11 26 300MHz 2 45GHz 2 GPS
368. UR RR RE oa qr a ow m ph RW xus m ia i Lm nni Q m emucunzesAo omms 1 gt Xie 2 gt e JKBXiec 3A en AENEA 1A lt 2 gt ec raecsh wna gt peli D omvsmemc iA lt 2 A gt eo MERE 3 A gt eMXCAoAT kake 5 A ini donc we Wa dh 9 v Wo s JUNE 7D emi 98cm TERED R MEE Hen 9 Wen Bdon TED IRE ER EE E 4 142 nnm e d db GG Wal Hx O k O MEMAK A HL Taw O a di et Ye YYA AH H b3g Wis aY X HEAT OR T Ku gwk 44 i agza eM TX BT 5 sg ck uf 24 A hs 1 5 ug K bd ud x bd 3k vp HU o Way Jl WE REGE 5 wena foro 04 KHEM FA FHEA 6
369. e 2 NC 2 a FRIGO M FRIGO M b c d O 3 19 5 2
370. x 36 Measurement Science and Tech Proceeding of The IEEE 39 Proceedings Mathematical Physi cal and Engineering Sciences 40 Quarterly Journal of the Royal Me International Journal of Fracture teorological Society Journal of Applied Fire Science Seismological Research Letters Journal of Applied Meteorology Textile Research Journal and Climatology 43 Trans ASME JC Journal of Heat 22 Journal of Applied Physics Transfer 12 13 14 15 16 17 18 19 0 2 N CD Journal of the Atmospheric 44 Trans ASME TE Journal of Applied Sciences Mechanics 24 Journal of Chemical Physics 45 Trans ASME Journal of Manufac 25 Journal of Electrostatics turing Science and Engineering 26 Journal of Fluid Mechanics VFDB Zeitchrift 225 UUDD e 3 X 1 23 20 HZ H 29 917 25 2 26 8 1 2 5 0 27 8 18 28 5 28 11 11 7 12 01 5 d 34 4 20 34 5 11 09 Fel 36 3 27 36 4 1 37 10 1 38 4 20 38 12 31 40 5 20 42 3 20 43 3 7 43 4 25 44 3 20 44 7 22 46 4 16 46 10 1 48 4 1 y 87
371. 1983 90 000k 1983 100 000kl Exp Free surface Exp Floating roof 0 0 02 0 04 0 06 0 08 v R 4 A nnm e tiii LiB eiExEL A TIOPBSS i i 2 5 10 5 6 2 m BUR Eis 2008 9 6 012 2008 9 6 16 29 HE 2008 9 752 2008zE9 H8H 211 i BAPA 200849 A88 925 1 2008 9 8 19 06 C9 Ce 6
372. 1H TUE EH SER 20 I O O O O O O O O oO I I O O O O O oO O
373. 2 19 Z 26 4 25 20 100
374. 2008 10 25 10 26 2008 10 28 10 29 2008 Mary Kay O Connor Process Safety Center International Symposium 9th Asia Pacific 2008 11 2 International 11 6 Symposium on Combustion and Energy Utilization to 2008 2008 11 3 711 5 2008 11 11 711 15 International Conference on Management of Landslide Hazard in the Asia Pacific Region UUDD e 19 2007 2 2 7 6m 2 Development of Small scale Universal Flammability Apparatus for Polymeric Materials
375. 3 a amp ogogo e 21 1 6 2 o E UN
376. 4 i N m 4 mk m 4 210 UUDD e BE Bae raaa 20 12 DES Lh m HIR TAL OR HAEN SS 21 2 N Fans CT Sr8 3 WE 2008 20 Ox Scd GH EJP 211 UUDD e D E Sy Bg 53588 HJ DEL 7 6m 2 2 R amp B sv 1 Pi
377. 50 0 0 100 200 300 400 Time min 4 ARSST DTBP30 70 3 8g Heat rate K min 150 175 200 225 250 Temperature C 5 ARSST DTBP30 70 3 8g l 1 B 6 s MCPVT
378. 94 CN 68 109 99 95 99 3 8H15H 12 8 36 16 151 134 151 13 m E 9s EX Oo Fr 3 23 d50 c 3 2 19 lt Eran nnm e rw 14 14 2 19
379. D G2000 AED G2005 AED AED J m TE 123 D pnt e 2 Questionnaire about AED Automated External Defibrilator GAWARA Fire Department EAST IRUBE branch Do you understand Japanese L Yes O A little O No Where are you from O China O Korea O The Philippines O USA O other How long have you been in Japan years months What
380. D e 9 56 MARA 2 19 EE 229
381. E 141 Bx H x H Bx a a gt H 38 d Te XX F F 3 E I 3E 2 K 2004 8 21 am biptem o R D 2 temam D 3 D 4 R D 5 m D 6 R D 8 m E 1 R E 2 E4 m E 5 E 6 E 8 F 5 R F 7 R 6 1 6 2 6 3 R 6 4 6 5 m 6 6 6 7 6 8 nnm e ze In 1 fud 7 2ADETRH HRE dB RR poa am r d m Rm ha WR
382. ROLNA 14A SE X 158 nnm e 2 224 2 20 34 269 qud 16 17545 3 29 4 37 gr 5 50 5 57 gri IERI D Ef 6 E S 6 62 a 13 140 1 nnn B ARAN ie zd d mm P D 3 159 nnm e nun 20 000 v 10 000 V mg 3 2 Eih T 4 3 Bof wrosa 3 3 E57 rouxu 3 1 WELAT 1 WELENT Im mi 2 2
383. S 22 1 Gibistie e LE CHO 10 v 5 v Eai Ein 05 0 01 py sd d mp gn 8 x WwN5S K NET S k 611 08 ow r o mmu EDI MEM 1i Bi pe Sent M TEL arm e A i Li Foe CAVE 1 20 WALH 20 09 26 045000 2008 07 11 14551 TES ZTEROCNETE 141 NET BRACSERSIERECKC NETT BER MAR EcPIGIPUC NETIBCLO BRABCESRSRRECAW K NET dk K NET K NET im K NET PCT TERI 2008 09 26 045000 2007 02 16 101300 2006 06 14 004300 2007 07 26 101340 2008 06 14 064300 2006 07 09 092600 2008 07 07 140447 2006 06 27 102617 2008 06 25 1021 46 2008 06 24 165358 ETAPIS CEE MES de 2008 06 14 0R4300 2008 06 24 155653 f btt Wil cu mid ANTEE RADAR Komik ss 05a S AM a Aa ig THLE 5 19 nnm e Ws Eien Fw RECT pi NT 7 Tak Ceen PNET D ge Bae s Sew TM EG wc TOTALTME HET p p Zn EB AREN pu KE FD OM zj gt 1182 sec 10
384. bee 2006 19 32 5 UUDD e 1 AED AED AED AEDO AED ATUS A
385. e HPIS G 103 G 109 G104 G i 106 G 107 70 SF FRP 72 AAFS RNAI TEI 73 m Mi nod 75 76 ISO TC21 ISO TC21 77 78 i Pr B m INS um m xm um m 84 ISO TC94 SC14
386. etic Materials Journal of Hazardous Materials Vol 32 Issue 8 pp 1759 1765 2008 9 11 0103 CD ROM 2008 10 510 005 CD ROM 2008 10 09 01 0026 CD ROM 2008 10 Vol 69 No 2 pp 169 172 2008 11 Vol 159 Issue 1 pp 35 41 2008 11 IT Framework for Disaster Mitigation Information Sharing Thermal behavior of sewage sludge derived fuels Thermal Analysis on lithium primary batteries Thermal characteristics and their relevance to spontaneous ignition of refuse plastics paper fuel pnt e 1 RE Itsuki Noda AIST 1 Hiroki Matsui CMD Laboratory Inc Hiroshi Yokota Time Intermedia Corporation Akihiro Shibayama NICT 1 Yoshiaki Hisada Kogakuin University 1 Takeshi Yamada VRI Shinsaku Zama Jun ichi Meguro Waseda University Ken Okamoto Juntendo University Urayasu Hospital Xin Rui LI Hiroshi KOSEKI Yusaku IWATA Woo Sub LIM OE NIED 1 R Xin H Koseki Xin Rui Li Woo Sub Lim Yusaku Iwata Hiroshi Koseki eU Journal of Disaster Research Thermal Science
387. is machine please help patient 25H85 EHN tTRUETUNS This imvestigalion is whether yog cam use AED r not REU NMHWEULm ALO5YNZINEL5bkHr5rEn5oRBERETT EI A BREST G6GNRVEG LL Please try to help an emergency patient Ei iBOU ARDEL Ti NAM Let s start nTu mhb6st 4b 5 90 84 80 405 60 50 40 30 20 10 445 E ED Ls ow p S AEDGQ AED AEDG AEDGD AEDO AED AEDO AED 6 126 nnm e 7 8 9 10 127 nnm e 1056 11 ED 12 AED 13 AED 128 UUDD e O WA 20 FE
388. l Storage Tanks Caused by Liquid Sloshing in the 2003 Tokachi Oki Earthquake and Revision of Design Spectra in the Long Period Range ICT ICT Effectiveness of Wearable Thermal Imaging Camera System for Firefighting and Rescue Activities in a Smoke filled Road Tunnel Mobility and Operability of Flexible Mono Tread Mobile Track FMT pnt e B Jeong NICT 1 5 Zama M Hosokawa FDMA B C Bautista PHIVOLCS S Zama H Nishi M Yamada K Hatayama FDMA EEA t54 5 CELERE 5 T Suzuki T Tsuruda T Kinugasa Okayama Univ of Science 2 K Osuka Kobe Univ H Amano 68 The 14 World 2008 10 12 Conference on 10 17 Earthquake Engineering 2008 10 13 10 15 2008 10 15 10 17 International Congress Smoke Control in Buildings and Tunnels 2008 10 21 10 24
389. on Support System Incorporating Information and Communication Technology Damage of Oil Storage Tanks Caused by Liquid Sloshing in the 2003 Tokachi Oki Earthquake and Revision of Design Spectra in the Long Period Range Quick Collection of Earthquake Damage Information and Effective Emergency Response by Collaboration Between Local Government and Residents Characteristics of heat flow of magnesium particles measured with high sensitivity calorimeter Risk evaluation on the basis of pressure rate measured by automatic pressure tracking adiabatic calorimeter pnt e H Gotoda Ritsumeikan Univ ft 1 Y Saso Jeong Byeong pyo Zama Shinsaku Hosokawa Masafumi FDMA Takizawa Osamu NICT Bautista Bartlome C PHIVOLCS Shibayama Akihiro NICT 1 Hisada Yoshiaki Kogakuin Univ 2 Endo Makoto Zama Shinsaku Hosokawa Masafumi FDMA S Zama H Nishi M Yamada K Hatayama FDMA Hisada Yoshiaki Kogakuin Univ 1 Zama Shinsaku Yusaku Iwata Hiroshi Koseki Yusaku Iwata Hiroshi Koseki 274 Experimental Thermal and Fluid Science Proceedings of the 14th World Conference on Earthquake Engineering Proceedings of the 14th World Conference on Earthquake Engineering Proceedings of the 14th World Conference on Earthquake Engineering Proceedings of the 14th World Conference on Earthquake Engineering Science and Technology of Energ
390. orted Residential Fires 2 9 26 m GH X Development of Small scale Universal Flammmable Apparatus UFA for Polymeric Materials A Proposal of Flexible Mono Tread T Kinugasa Okayama 2008 IEEE RSJ 2008 9 22 Mobile Track a New Mobile University of Science 2 International 9 26 Mechanism Using Tracks Conference on Y Otani Pacific Intelligent Software Development Robots and K Osuka Kobe Univ Systems H Amano IROS2008 Lessons learned from scrap metal H Koseki 2008 2008 9 24 fires and accidents during Y Yamazaki Coast International 9027 transportation Guard Research Center Symposium on M Wakakura Disaster Safety Science Information Center and Technology A Terazono NIES Evaluation test method of various X R Li H Koseki 2008 2008 9 24 solid biomass fuels Y Iwata International 69 27 oymposium on Safety Science and Technology Tank Structural Integrity API Storage 2008 10 8 Experimental Study of Floating Tank Conference 10 9 Roof Integrity for Seismic Sloshing IP HUF IRI OE SER ETE vn AE 2008 10 9 HESS 7 10 10 d 67 A STUDY ON CLASSIFICATION OF LANDFORM BASED ON SRTM 3 FOR ESTIMATION OF SITE AMPLIFICATION FACTORS IN METRO MANILA PHILIPPINES Damage of Oi
391. s of n decanol y E IE IAVZCCONAJSbeQ Ba Xin Rui Li Hiroshi Koseki Yusaku Iwata Woo Sub Lim K Wakatsuki A Hamins M R Nyden G S Jackson J Kim 5 P Fuss K Hatayama FDMA Xin Rui Li Hiroshi Koseki Yusaku Iwata Tadashi Konishi Oita National College of Technology 1 Yusaku Iwata Hiroshi Koseki Kohei Sagae Akihiko Ito Hirosaki University 1 Kyungok Kwon Jeonju Univ Dongwon Lee Penn State Univ Yusaku Iwata Hiroshi Koseki NILIM 3 ac 11th International Conference on Fire Science and Engineering Interflam 2007 Combustion Science and Technology Journal of Seismology Journal of Hazardous Materials Fire Safety Journal Journal of Loss Prevention in the Process Industries Vol 180 Issue 4 pp 616 630 2008 4 Vol 12 No 2 pp 255 263 2008 4 Vol 154 Issues 1 3 pp 38 43 2008 6 Vol 43 Issue 5 pp 363 375 2008 7 Vol 21 Issue 4 pp 478 480 2008 7 Vol 45 No 2 184 pp 106 117 2008 7 Experiments on dynamical motion of buoyancy induced flame instability under different oxygen concentration in ambient gas A Study on Classification of Landform Based on SRTM 3 for Estimation of Site Amplification Factors in Metro Manila Philippines A Study on the Disaster Information Collecti
392. sb Y Ohmiya K Wakatsuki A Yanagisawa D Goto J of Loss Prevention in the Process Industries Proceedings of the Combustion Institute pp 200 220 2009 2 Vol 22 Issue 2 PP 182 186 2009 3 Vol 32 Issue 2 pp 2551 2558 2009 Vol 33 No 1 188 pp 43 48 2009 89 mies SU Vol 45 No 4 457 PP 288 291 2008 4 Vol 58 No 2 293 PP 17 21 2008 4 Vol 58 No 2 293 PP 33 38 2008 4 pnt e
393. sex are you Male Female How old are you under19 D 20 29 30539 40 49 0D 5059 6Oor above Can you perform CPR CCardioPulmonary Resusciation CPR Yes O No Do you know AED Automated External Defibrilator AED Yes O No Have you ever used AED AED Yes No When did you use P O training O other zott C Did you understand a guidance Understand O Almost understand O Difficult to understand O Not understand at all You obeyed guidance and was operation of AED possible Possibility Almost possibility Almost impossibility O Impossibility Which is a difficult or confused point Push the power button two electrode pads on a chest connect electrode
394. siosb University of Ulster Y Ohmiya Tokyo University of Science 2 Kaoru Wakatsuki Wave length of flame front turbulence under acceleration Flow field of a model fire source by high speed camera image 47 2008 8 26 Tf 225 29 2008 9 9 9 11 3 3 65 UUDD e Fire Investigation for Emergency R ERIEK E BEA 2008 9 13 hi Management ZA 2008 9 16 2b Je o R 2008 9 19 La

消研輯報第62号［PDF 13.0MB］

Contents

Download Pdf Manuals

Related Search

Related Contents