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- かずまさ たかぎ
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1 20
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8 BEE QQuality LLoad QL BEE
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22 (2) CASBEE-() CASBEE CASBEES AB + B C CASBEE1 CASBEE CASBEE CASBEE CASBEE CASBEE CASBEE-CASBEE QL BEEBuilt Environment Efficiency CASBEE CASBEE CASBEE- CASBEE CASBEE CASBEE- CASBEE CASBEE- CASBEE CASBEE CASBEE CASBEE CASBEE CASBEE CASBEE CASBEE CASBEE CASBEE CASBEE CASBEE- CASBEE ) CASBEE- 1 CASBEE
23 (3) CASBEE Q1Q21. LR1 1 CASBEEQQualityLLoad BEEBuilt Environment Efficiency LLRLoad Reduction
24 QQualityLLoad 2 LCCO 2 LR31.CO 2 LCCO 2CASBEE LCCO 2LR1 LCCO 2 CO 2 LR2. CO 2embodied CO 2 LR1.BEIBEI CO 2 Q2. LCCO 2 LCCO
25 LCCO 2 LCA LCA LCA,, 2013 LCCO 2 Q1Q3LR1LR3SQ1SQ3SLR1SLR3 QLRSQSLR 3 CASBEE QLR BEE BEEQLRSQSLR QLSC 52 4 BEE
26 2 BEE BEE=3.0 Q=50 BEE= BEE= BEE= BEE= LR1 BPIBEI
27 CASBEE Q CASBEE3 3 Q: Q Q Q
28 Q1 POEM-OPost Occupancy Evaluation Method Office CASBEE Q2. POEM-O POEM-O CASBEE
29 Q LR3 2.2
30 LR CASBEE4 LR1. 4 LR: LR LR
31 LR CO 2 LR BPIBuilding PAL Index BEIBuilding Energy Index 2.4. BEMS 1. BPIBuilding PAL IndexBPImBPI for Model Building Method BEIBuilding Energy IndexBEImBEI for Model Building Method 4. LR CASBEE LR3
32 LR3 LR3 1. CO 2LCCO 2 CO 2embodied CO 2 LCCO 2 LR1 LCCO 2-CO 2/ Q
33 2003 CASBEE2004 CASBEE 110 AHP(Analytic Hierarchy Process) CASBEE-2008LR CASBEE Q Q Q LR LR LR3 0.30
34 (1) CASBEE 6
35
36 (3) 7 7
37 ) CASBEE F S CASBEE ) ) 6 ) 01.0 LCCO2
38 (4) Q1Q Q
39 Q3 LR3 Q3 1 9 LR1 LR1BPIBEI 1.BPIBPI 3.BEIBEIBEI 10 BPIBPImBEIBEIm
40 10 CASBEE LR
41 (5) CO ) 12
42 ) ) ) (3) (6) CO 2 13CO 2LCCO 2 LCCO 2 CO 2kg-CO 2/ 13 CO 2
43 LCCO 2 LCCO 2LCCO 2 CO 2 14 LCCO 2
44 LCCO 2CO 2 15 LCCO 2
45 (7) 3 3 Green Global Warm Resources Heat island CASBEE2017 CASBEE2017(v1.0) /2
46 /2
47 18QLR BEELCCO CASBEE 2-1 BEEQL 2-2 CO Q LR 18 CASBEE 2017
48 9 1 2 CASBEE 21 BEE QL BEE 2-2 CO 2 LCCO Q LR: 1 CASBEE 2 BEEBuilt Environment Efficiency QL BEEQLQSQLRSLR BEEQLQ SQ15Q0100Q25SQ1 LSLR15L 0100L255SLR BEE2BEE BEE 18QLBEEQ=0L=0QL BEEQL CASBEEC B B AS 19
49 CO 2 LCCO 2LCCO 2100 LCCO 2 LCCO 2 2-1BEE& BEE = 1.8 S A B + C BEE B % LR3 CO CO 2 Q1LR % 76% 76%
50 QQ1Q2Q3 LR LR1LR2LR3 2-4 Q Q = 3.4 Q1 Q2 Q LR LR = 3.6 LR1 LR2 LR
51 23
52 (9) CASBEE CASBEE LCCO CO 2 LR-3 1.BEE LCCO 2 LCCO 2 LCCO 2LCCO 2 LCCO 2LCCO 2 CO 2kg-CO 2/ CO 2 24 LCCO 2
53
54
55
56 1. Q Q1 Q1 1.1 db(a) 50 [] 45 [] 45 [] [] [] [] 40 [] 40 [] 35
57 55 [] 40 [] 50 [] [] [] [] 35 [] 45 [] [] 50 [] [] [] 45 [] 35 db(a) 45 [] 40 [] [] 40 [] 35 WHO
58 2, 3, 4,11
59 T-1 T-1 T-2 T-1 T-1 T-2
60 T JIS A
61 1.2.2 Dr-30 Dr-35 Dr-30 Dr-35 Dr-35 Dr-40 Dr-40 Dr-45 Dr-45 Dr-50 Dr-40 Dr-40 Dr-45 Dr-50 Dr-55 Dr Dr JIS A 1417 JIS A Dr 2dB 1988 Dr JIS A
62 1.2.3 Lr-65 Lr-65 Lr-60 Lr-55 Lr-50 Lr-55 Lr-55 Lr-50 Lr-45 Lr-40 LrLr Lr JIS A JIS A Lr 2009 JIS A Lr LCASBEE Lr 3 JIS A
63 1.2.4 Lr-65 Lr-65 Lr-60 Lr-55 Lr-50 Lr-60 Lr-60 Lr-55 Lr-50 Lr-45 Lr JIS A JIS A Lr 2009JIS A Lr Lr2L CASBEELr
64 1) 2) 3, 7
65 JIS A
66
67 POEM-O , 10, 11, 12, 1314
68 2.1.2 SC0.7 U=6.0(W/m 2 K) U=3.0(W/m 2 K) SC0.5 U=4.0(W/m 2 K) U=2.0(W/m 2 K) SC0.2 U=3.0(W/m 2 K) U=1.0(W/m 2 K)
69 SC0.7 U=6.0(W/m 2 K) U=3.0(W/m 2 K) SC0.5 U=4.0(W/m 2 K) U=2.0(W/m 2 K) SC0.2 U=3.0(W/m 2 K) U=1.0(W/m 2 K) 1SCU CASBEE CASBEE- 4 USC
70 1 SC r o UiTrTo i9 W/m 2 K 2 Low-e PAL
71 3 U SCSC 1U U U U SCU 3 mm SC=1.06.0(W/m 2 ) SC= (W/m 2 ) SC=0.53.0(W/m 2 )
72 U A AC U A W/ m 2 K 0.72U A 0.72U A 1.21U A 1.47U A 1.67U A 1.67U A 2.35U A H UA UA UA UA , 10, 11, 12, 13, 14, 1516
73 m 2 FCU FCU AHUFCU AHUFCU 40m 2
74
75 POEM-O4555 9, 10, 11, 12, 13, 14, 1617
76 2.3
77 0.1m 1.7m 20.15m/s 9, 10, 11, 1214
78 [] [] [] [] [] [] 0.5 [] % [] [] [] [] [] [] [] 2.0 [] 1 2
79 1 2 UU1U2U3U4 UU1U2U3U4 19
80 3 12 S U S' ' U r % U r r =1 π S S 2.5m 0.5m 0.8m 12 1 bdh bdhd U=U1+U4 U1 b1d1=0.82.5=0.32h1d1= =0.62 U11.4 U4b4d4=0.52.5=0.2h4 d4=0.62u40.9 U= = m 1m 1.55m 0.75m U4 1m U1 18, 1920
81
82 3.1.3 Daylight Devices <> <>
83
84 () CASBEE
85 3.3 []300lx []150lx []300lx 1000lx [] 300lx [] 500lx 300lx 500lx 1/3 2/3 300lx[]500lx 750lx[] 150lx[] 500lx 1000lx 500lx 1000lx 1/3 2/3 500lx[]750lx 100lx 500lx 1000lx 1/3 2/3 100lx 30% 100lx 50%
86 []100 lx [] 100 lx 100 lx[] 100 lx [] 100lx [] 150 lx [] 100 lx 150 lx [] 100 lx [] 100 lx 80cm 2) 80cm 3) 1000lx750lx 1) 2) 3) 22), 23), 24), 25), 26)
87 3.4 () 26)
88 JISJAS 70 JISJAS 90 VOC JISJAS 70 JISJAS 90 VOC
89 1980 JIS JAS70 JISJAS 90VOC 2728, 29, 30, CASBEE
90 () 25 3 / 30 3 / /
91 25 3 / 30 3 / / 1.4 SHASE-S / 27, 33
92 4.2.2 () 25cm 2 /m 2 1/50 25cm 2 /m 2 1/30 50cm 2 /m 2 1/15 1/20 1/15 1/10
93 50cm 2 /m 2 1/20 50 cm 2 /m 2 1/ cm 2 /m 2 1/10 1/10 1/8 1/6 1/2 34, 35
94 m 6m 6m 3m
95 3m 6m 6m 3m 36
96 CO 2 CO 2 CO 2 CO 2 37
97
98 Q2 Q / 6 / 10 / 8 / , 35, 38, 39
99 / 2 30/ PC 40/ 2 50/ 2 Gigabit EPS 100Mbit Gbit OA Gigabit 1, 38, 40, 41
100 , 43, 44
101 m 2.7m 2.9m 3.0m 3.3m 3.6m () 2.7m 3.0m 2.7m 3.1m 3.2m 2.7m 2.3m 2.5m 2.7m 1, 35, 38, 39
102 , 38, 45
103 , 45
104 mm
105 R m1m C.S.R
106 JIS T mm ) 2) 3) 4) 5) 6)
107 7) 8) 9) 10) 11) 600mm600mm 12) 13) 1) 2) 3) 4) 5) 6) 7) 8) 9) 10) 600mm600mm 11) 12) 1) )
108 0.12 3) 4) 5) ) 7) 8) 9) JIS Z JIS Z lx 75Lx 10) 11) 12)
109 13) ) 2) ) ) 5) 6) 7) 8) 9) 10)
110 11) 12) ), 46), 47), 48), 49)
111 %
112 C i /
113
114 BELCA 1 50)
115 BELCA
116 BD1986 BD ラッピングフランジめっきTIGゴムコアノーハブコーろうろうキング 1) A:60 B:40 C:30 D:20 E:15 2) 3) 4) *5)() 1986*5
117 BELCA h/ 50) 2.3 CASBEE
118 NO.
119 2, NO. 6L/ 4L/ No.1LR2 1.1 No.4
120 2.4.3 NO ,000 ))) ) ) () () ) 2.4.1
121 B KH 1.0 AB KH 1.5 SA KH 2.0 BKH=1.0A KH=1.5 S KH=2 BAS 51,
122 NO. PHS 2 MDF Ethernet )) ) ) ) () () ) FAX TV
123 m
124 [] 0.5 [] [] [] 0.3 [] [] 0.5 [] [] [] 0.3 [] 0.1 +
125 1 PSEPSEV PSEPSEV A
126 3a3 PS PS3b33 c3 PSMBPSMBd e f PSMB PSMB g d f b a g e c=
127 N/ 3500N/ 2300N/ 2900N/ 3500N/ 3500N/ 4200N/ 2300N/ 2900N/ 3500N/ 4500N/ 4200N/ 5200N/ 2900N/ 3500N/ 4500N/ 5200N/ 3500N/ 1800N/ 1800N/ 2100N/ 2100N/ 2900N/ 2900N/
128 ISS () ISS: Interstitial Space System
129 3.3.2
130 1 1 PS (RC ) 2 2 PS (LGS ) CON 3 PS PS ISS WC 1 2 1
131
132 3.3.6
133 Q3 Q35 Q I 1) 2 II 1) 2
134 III IV V VI 1) % 3 2) 5% 20% ) 2) ) 1 1) 2) 1) Q3 1. IVI I
135 km II.
136 III. II
137 IV. 1)2) 3)4) 1 1) ) ()
138 NEXCONEXCONEXCO 23 68,000 3) 4) NEXT21 1.5km 1000m 2
139 V. 1 1) 2) VI. IV1
140 2. 0 1~
141 CASBEE 1
142 3 2
143 UR 6
144 I II III
145 IV V 1 1 POE VI I
146 II III IV V POEPre/Post Occupancy Evaluation VI IIV1
147 I II III 1) 2) ) ) )
148 IV V 1) 2 3 2) ) 50 GL10m 1 GL 10m 2 2) 50 GL10m 1 GL 10m )) ))) LR32.2 I 1) 2 2
149 2) II
150 4 III 1) ()0.01L/(min) L/minL/min
151 2) IV 1) 80 2) V 1) 10m10m ) () m10m
152
153
154
155 2. LR LR1 LR PALPALBPI 1 CEC BEI 2 BPIm 3 BEIm BPIBEI BPImBEIm 2015 CASBEE2015 BPImBEIm5,000m BPIm BEIm BPIBEI BPIBEI Web Ver.2BPIBEI Web BPIBuilding PAL Index PAL 2 BEIBuilding Energy Index 3 BPImBPI for Model Building Method BPI m 4 BEImBEI for Model Building Method BEI m 1
156 BEST CASBEEBEI BEST Ver.2 Ver.2 Ver.2 Ver.2 Ver.2 Ver.2 BPI BPIm BEI BEIm U A AC BEI BPIBEI CASBEEBPIBEI BPIBEI CASBEE BEI BPIBEICASBEE LR
157 1. BPIBPIm BPI [BPI] [BPIm] 1.03 [BPI] [BPIm] [BPI] [BPIm] 1.00 [BPI] [BPIm] [BPI] [BPIm] [BPI] [BPIm] 0.90 [BPI] [BPIm] [BPI] [BPIm] 0.80 [BPI] [BPIm] BPIBPIm 5-1 1) BPIBPImBPI BPI BPI BPIBPI=1.001 BPI 25BPIBPIm
158 5 BPIBPIm 2) 18AB A U A AC 5 B ) H25
159 MJ/ 80% 2 50% 80% NO
160
161 5 10,000m 2 1,000m 2 200lx6W/m 2 5h245/ 60% 1,000[m 2 ]0.006[kW/m 2 ]9.76[MJ/kWh] 5[h]245[/]60[%]43.0[GJ/] 43.0[GJ/]10,000[m 2 ]4.3[MJ/m 2 ] 5,000m 2 1,000m W/ 12W/m 2 3.0W/m 2 COP kW: 2VAV 60% h 50% 100[]0.055[kW/]0.012[kW/m 2 ]0.003[kW/m 2 ]1,000[m 2 ]20.5[kW] 20.5[kW]3.6[MJ/kW]1.0[-]152[/]10[h]50[%]56.1[GJ/] 11.0[kW]2[]60[%]9.76[MJ/kWh] 152[/]10[h]50[%]97.9[GJ/] 154.0[GJ/]5,000[m 2 ] 30.8[MJ/m 2 ] MJ/kWh
162 3. BEIBEIm BELS5 BELS 1 [BEI][BEIm] [BEI][BEIm] [BEI][BEIm] [BEI][BEIm] [BEI][BEIm] 0.60 BELS 1 [BEI][BEIm] [BEI][BEIm] [BEI][BEIm] [BEI][BEIm] [BEI][BEIm] 0.70 BELS 1 [BEI] [BEI] [BEI] [BEI] [BEI] [BEI][BEIm] A A A 1.20 ΣA 2 [BEI][BEIm] A A A 1.10 ΣA 3 [BEI][BEIm] A A A 1.00 ΣA 4 [BEI][BEIm] A A A 0.90 ΣA 5 [BEI][BEIm] A A A 0.85 ΣA 1 A=A=A= ΣA= BEI BEIm 1) BEIBEIm BEIBEIm6
163 2017BEI BEI BELS BEI= BEI= BEI= BEI=1.0 6 [BEI][BEIm] 2) BEI BEI BEI BEI BEIm20154BEI= BEI=1.04 BEI=0.905 BEI=0.85 3) BEIBEIm A A A 15A A A 15
164 BELS5 23 BELS5CASBEE15 BELS BELS BELS E 2 E E E 1.00 E 3 E E E 0.90 E 4 E E E 0.85 E 5 E E E 0.80 E = E = E = Web BEIBEImBELS CASBEE BELS
165 COP COPWTFATF COP
166 1 ac a b c: 5 HEMS HEMS HEMS 30 HEMS () 11 () 113 ECHONET Lite HEMS
167 4.2
168 LR L/ 4L/ 24
169 %
170 CASBEE 2
171 (RC /SRC /S ) 0 (RC /SRC /S ) 1 (RC /SRC /S ) 3 (RC /SRC /S ) 5 F C FN/ 2 1 Fc=36 F=390 3 Fc=60 F=490 4 Fc=100 F=590 FN/ 2 1 F= F= F= RCS SRC 2 CFT BCP
172 2.2 Q
173 2.3 HP
174
175 AB C 112
176 CoC
177 8 9 10
178
179 SRC SIGL
180
181 CFCHCFC SDSSafety Data Sheet SDS 54
182 3.2 ODPGWP ODPOzone Depleting Potential CFC-111kg 1kg ODP0 GWPGlobal Warming Potential ODP GWP ODP 0 GWP 50 ODPGWP ODPGWP ODPGWP ODP=0GWP
183 87 84 (17428) ODP0.2 ODP0.2 ODP0.01 ODP0.01 GWP GWP ODP0 GWP GWP100 1 ODPGWP CFCHCFC
184 CFC , HCFC-141b HFC-134a HFC-245fa C 5H CFC , HCFC-142b ,310 HFC-134a 0 1, CFC , CH 2Cl 2 0 ODPODP00.01 GWPODP0 GWP2 ODPGWP 2 ODPGWP ODPCFC GWPCO CFC11 CFC12 CFC113 CFC114 CFC115 HCFC22 HCFC123 HCFC124 HCFC141b HCFC142b HCFC225ca HCFC225cb HFC23 HFC32 HFC125 HFC134a HFC143a HFC152a HFC227ea HFC236fa HFC245ca FC14 FC116 FC218 FCC ,750 10,900 6,130 10,000 7,370 1, , , ,500 1,430 4, ,220 9, ODPGWP
185 3.2.3 HCFC ODP=0 ODP=0 GWP50 ODP0 MHMH MH1000
186 LR3 LR35 LR3 1. CO 2 CO 2 CO 2 CO 2 CO 2 CO 2 CO 2CO 2 LCCO 2 LCCO 2CASBEE LCCO 2 LCCO 2 CO 2 LR2. CO 2embodied CO 2 LR1.BEICO 2
187 Q2. LCCO 2 LCCO CO 2 CO 2
188 NOxSOx NOx NOxSOx NOx 1) NOxSOx NOx 2) NOx NOxSOxNOx
189 1 kw / / / ) 1
190 2 NOxSOx SOx 1) (He) (Nm 3 /h)k10-3 He 2 K K ) % 3) g/Nm g/Nm 3 NOx 1) 60400ppm ppm 2)
191 3) NOxSOx NOxSOx NOx 90 NOx H21 ppmo 2=0% (ppm) GHP GHP 50L/h 10 50L/h 10 35L/h 10L/h A A (12A/13A)LPG12A/13A 0 GHPNOx JIS B O2160
192 I II 1) )
193 4) ) LR III Q Q3 3.2 I 1) 2
194 II 2) CASBEE-HI
195 SbWsHb100 Sb21622 Hb{}
196
197 15 Ws Hb S b Ws Sb Hb Ws 14 Ws Ws 15 W
198 さBさA さA Sb22 16 Sb17 1) 2) Sb 16 さC ささ C B 17
199 HRw Hb1/2RwHb1/2 3 Hb{} W d W 1,W 2 Rw RwW 1W 2H W 1H W 2H 19W d W d W 2 W d W 1 W d H W 1 GL W 2 H d 1, 2 18 W 1,W 2H
200 W 2 W d W 1 d 1, 2 19 W dw 1,W 2 W H H b /2 GL H H H L W L H b2 W HH H 20 WH1 W H H b /2 GL H H H L W L H b2 (W HW L)2H H 21 WH2
201 W 3 W d W 2 W 1 W d H 1 H 2 W 1 W 2 W 3 W 2H RwW 1H 1W 2H 1W 3H 2W N+1H N N Rw 22
202 W H H b /2 H H H L W M GL W L H b2 21 (H HH L)W M (W HW L)2H H 23 WH W 3 W d W 2 W 1 24 W d
203 3) A B JPMS27 KRKS
204 4) A B JPMS27 KRKS-001 Q3.3.2IV
205 5) LR1 LR ) 802) III 6 1 2
206 mm 100mm 100mm 1 mm m 3 m 3 m 3 m 3 m m 3 mmm m 3 m 3 /h1h1m 3
207 m 3 /hmm/h m/h m m 3 100mm 1000 mm m 3 m m3 /h 1 m 3 mm 100mm
208 AIJES-W ) mm100mm mm 1100mm 100mm 55 4
209
210
211 I II 1) 2) 1) 2) 3) 4) I 1) 1 2) II 1) 1 2)
212 3) 4)CASBEE I II III 1) 2) 3) 4) 5) 6) 1) 2)2) 3) 4) 5) 6)
213 ) 2)[10dB] 2 CASBEE am8pm6am6 am8pm6pm11pm116-10db
214 1) CASBEE ).kw.kw kn.kw.kw.kw. kg.kw.kw kw. kw kw. kw.kw
215 ののをりくことしたのをすること のにするの 3 のの 10dB 25dB 06dB 10dB 0.6dB/100m (1kHz) 5dB/100m (8kHz) 30cm 0.7dB/10m(1kH z) 10dB/50m 56
216 ) 2)5dB 2 CASBEE am8pm7pm7am8-5db
217 1) 2) kw.kw.kw.kw.kw.kw.kw kw
218
219
220 [] 1
221
222 4. 10m (a) (b) (a)(b) AD m/sec15 m/sec 20 m/sec 2 10 m/sec 22% 8010 m/sec 22% 15 m/sec 3.6%
223 m m 10G.F. 15G.F. 20G.F. 1 10% % % % 3 3.6% 13 7% % % 2 1.5% 5 (1):23:10 1.5m (2) 10m/s 15m/s 20m/s (3)G.F.:(1.5m23) () (4) 10m/s10% m/sec 954.5m/secC 5m 55% 95 A 1.2m/s 2.9m/s B 1.8m/s 4.3m/s C 2.3m/s 5.6m/s D 2.3m/s 5.6m/s A B AC C D 57
224 4 5758
225 I II 1 2)
226 ) 1 2 2)
227
228 2) *3) 34
229 2 4)
230
231
232 1) POEM-O2000 2)1994 3) ) ) )1988 7)2009 8) ) 10)(HEAS022004) 11) ) 13) 14)ANSIASHRAE ASHRAE STANDARD 15) 16)() 17) 18) 19) ) 21)JIS C ):JIS Z ):JIS Z )TAL ) ) ) 28) ) 30) 31) 32) ) SHASE-S )Raymond J Cole,Nils Larsson,GBC 98Building Assessment Manual ), 36)Cole,R.J.,Rousseau,D.,and Theaker,I,T.,Building Environment Performance Assessment Criteria:Version 1,-Office Buildings,The BEPAC Foundation,Vancouver,December )US Green Building Council,LEED(Buildings:Leadership in Energy and Environmental Design),Rating System Version 2.0,Jun ) ) 40)NPO )NPO ) 43) 44) 45) 46): JIS T
233 No / ) ) 52) 53)184 54)20026PRTR (()()()) 55) AIJES-W ) 57) 58), )
234 PC EP 30 OP ,400 x 2, H = 1, H = 1, EP GL PB T= T=9 30 T= PB T= OP FRP
235 TV TV L FRP
236 M 30 L HIVP 30 VP LC
237 44 (1969) ' NTT BELCA NTT 15 BELCA T= NTT X NTT NTT BELCA BELCA NTT BELCA NTT BELCA NTT BELCA 15 BELCA 10 JASS BELCA PC 60 BELCA 40 BELCA 40 BELCA BELCA EP NTT BELCA BELCA 60 4,334 x 2,800 BELCA 5 NTT 6 3 BELCA
238 BELCA 60 H = 1,100 BELCA 40 H = 1,100 BELCA BELCA 60 BELCA NTT BELCA NTT BELCA NTT BELCA 20 NTT BELCA NTT 30 BELCA BELCA 60 BELCA 60 BELCA BELCA NTT BELCA NTT 30 EP BELCA 10 NTT 30 BELCA NTT 30 BELCA GL PB T=12 BELCA 10 T=9 BELCA T=9 BELCA BELCA NTT BELCA 30 PB T=10 BELCA BELCA
239 50 50 BELCA OP BELCA NTT BELCA BELCA 40 BELCA BELCA 20 BELCA BELCA 20 BELCA BELCA BELCA BELCA BCS BELCA BCS 7 BELCA BCS 15 BELCA BELCA 30 BELCA 60 BELCA BELCA BELCA 30 BELCA 30 BELCA BELCA 18
240 25 BELCA BELCA BELCA TV 15 BELCA TV 15 BELCA 20 BELCA BELCA P-1 50L BELCA BCS 20 P BELCA BCS 20 P BELCA P BELCA BELCA 60 BELCA BCS 15 BELCA BCS 25 BELCA BCS BCS 20 BELCA BCS 15 BELCA BCS 20 BELCA BELCA FRP 14.4 BCS 15 FRP BELCA
241 BCS 15 BELCA BCS 15 BELCA 15 BELCA BCS 15 BELCA 13.6 BCS 15 BELCA BCS 15 BELCA 15 BELCA BCS 20 BELCA 25 BELCA BCS 15 BELCA 17 BCS 15 BELCA BELCA 15 BELCA BCS 10 BELCA BELCA BELCA BELCA 20 BELCA BCS 15 BELCA 18.7 BCS 15 BELCA
242 BCS BCS 12 BELCA BCS 20 BELCA BELCA 18 BCS 20 BELCA BCS 20 BELCA BELCA BCS 15 M BELCA 30 L BELCA BELCA HIVP BELCA 25 VP BELCA BELCA BELCA BELCA 20 BELCA 20 VHS BELCA 8.2 BCS 10 BELCA 10 BELCA 20 BELCA 20 BELCA 25 BELCA 25 BELCA BELCA BELCA BELCA 20 BELCA 10 BELCA 10 BELCA 10 BELCA
243 BELCA LC NTTBCSBELCA JASS
244 1) )349 9 CASBEE 1)2) 1.0m 1.0m m 2.1m m 4.0m 1.6m m 2.5m 1.1m 3.8 m 23 CASBEE
245 23 CASBEE m23 1m CASBEE CASBEE
246 23CASBEE
247 L/m 2 35mm 918L/m 2 60mm 918L/m 2 60mm 36.5L/m 2 100mm g/cm g/cm * * * 0.15g/c m 3 70% BPN40 BPN60 3.0N/mm 2 5.0N/mm 2 ±2.5mm +4mm-1.0mm ±2.5mm ±2.5mm 1) ) No ) 1996
248 JIS K JPMS27KRK S % * % * 40.0 * JPMS nm2500nm 50.0% KRK S % ) ) ) ASHRAE guide book1969 4) Pacific Gas and Electric Company, High Albedo Roofs(Codes and Standards Enhancement Study),2000
249 1. CASBEE BREEAMBuilding Research Establishment Environmental Method* 1 LEED TM Leadership in Energy and Environment Design* 2 CASBEE 1.2 CASBEE CASBEE CASBEE.1.1 * 3 PRE-DESIGN DESIGN POST-DESIGN.1.1 * *2 US 1997 *3 (2001)
250 CASBEECASBEE-CASBEE-CASBEE- CASBEE CASBEE.1.2 CASBEE CASBEE- CASBEE- BEE CASBEE- 1 CASBEE- CASBEE-ESCO
251 1.2.2 CASBEE CASBEE (1) CASBEE CASBEE-CASBEE- (2) CASBEE- CASBEE- (3) CASBEE- CASBEE- (4) CASBEE- CASBEE20044 CASBEE (5) CASBEE- (6) CASBEE-1 (7) CASBEE Q CASBEE-CASBEE
252 (8) CASBEE- CASBEE-CO2 CASBEE (9) CASBEE CASBEE CASBEE- CASBEE- CASBEE-.1.1 CASBEE CASBEE- CASBEE- CASBEE- CASBEE CASBEE CASBEE- CASBEE- CASBEE- CASBEE- CASBEE- CASBEE- CASBEE- CASBEE- CASBEE- CASBEE- CASBEE CASBEE CASBEE
253 1.3 CASBEE (1) (2) 1960 (3) 1990 BREEAM LEED TM SB Tool LCA CASBEE CASBEE CASBEE
254 BEE CASBEE *4.1.4 BEE; Built Environment EfficiencyCASBEE 1.4 BEE *4 WBCSD
255 1.4 CASBEE Q L CASBEE CASBEEQL QQuality LLoad.1.5 Q L CASBEE 4 CASBEE(1) (energy efficiency)(2) (resource efficiency) (3) (outdoor environment)(4) indoor environment BEEQL QQ1Q2Q3: LL1L2L3
256 .1.6 Q L BEE QLBEECASBEE BEEBuilt Environment EfficiencyQL ) BEE Q L BEEQ LQBEE0,0 QL BEE C B B AS BEE.1.7 BEE
257 1.5 CASBEE CASBEE CASBEE (1) CASBEE (2) CASBEE CASBEE 1.6 CASBEE CASBEE CASBEE20044 CASBEE CASBEE CASBEE (1) ISO14000 (2) (3) ESCO / ESCOEnergy Service Company CASBEE-
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