平成17年度 - 住宅リフォーム・紛争処理支援センター
Contents
1.2. 7
3. 2 4 1 1
4. 3 115 3 115 http www aereco com 244 3 116 AERECO
5. 233 6 6 1 24 365 5 7
6. FALAT EJ HEWN e RHE C ORAMO KIED L LC 105x40 GW 10OK S 50 mm 16k 100 mm 2 1 15
7. K 3 146 27x
8. 2 1
9. 373 3 3 1 2 1 g 2 2 2 2 4 2 1
10. 8 450m h 7 230m h Ed 10 300m h 10 300m h 7 gt 0 300m h 10 300m h 3 Okg 1 0kg 3 26 O 123 2 k k
11. 7 6 3 1
12. 2061 3 5D ETOR a 1
13. 2 2 1 12 Im 8 Ek Afi V 29m 6 5 D F Ej
14. 132 3
15. 1 4 Ditt lt HE IHE
16. 3 3 3 3 3 4 ID 50 2 ID 50 2 10 5 4 5 e ib zu E k A E 0 T ik 2 gt S E T 5 aK 1 1
17. D5 D6 D10 D12 2 1g 10 5x10 5 10
18. 3 8
19. 2 50
20. AP a0 Pa a n Q ME m 3 145 a d 5 3 1
21. 3 38 131 2 5 2 5 1 3 4 1 HEOR o TORE E 2 E 3 E 4 E 2 5 2 1
22. 5 2 6 jx
23. 3 3 10 EIE OR SEDRE n 16 16 F 2 Rm ET YA HAE GE p i id i 2 d ON C B 14 T 7
24. 7 2 3 CO oq occ OS
25. 254 JIS
26. 10 E X amp HL Bl 7 V 3A 7 6 HE T 4 LT 4 2 0 f E C v 87 V 50 100 3 19 2 a 3 10 ID 50 A 3 10 b 3 11 3
27. A o B A Oo B A o B A C B iD A E A C B D A C B D 100 s RE RE A E RE 7r 30 35 e 80 n 425 4 39 E 60 A S so 0 a mE Nas N20 m 20 205 3m h ik 15 Ji 10 E 0 10 0 1 2 3 4 5 6 7 WE 5 e g m 0 3 130 0 50 100 150 200 Q m h A B 3 131 O OO RE C DE 25 5 30 0 L ri 0 T2 1 3 132 g20
28. O 1 0O 9 1 6 89 2 2 2 O 2 23 2 22
29. m h 3 0 9798 mW h m h O W h 98 1 3 1 16
30. b 2 10 KGS 3 34
31. OC pos 119 2 2 1 1 1 2
32. 1 1 Ee 4 10m h 126 2 4
33. 950mm 16 16 8 2 11 17 1 2 1
34. E ERES UU ll 0 200 400 600 800 1000 1200 1400 kW 3 123 9 39 2Pa 10 39 2Pa 1l 12 1981 2000 TLO 2005 13 SMASH for Windows 249 6 3 1 6 2
35. 3 2 1 HARTAT Y ANA A 20L VOC 20L VOC
36. 1 3 8 1 R R1 R2 S S1 S2 2 0 01 02 E E1 E2 DEDI RA EF EE1 EF2 SF SF1 SF2 134 T WE ecc TE 2 esti 1 B 82 81 m 2 66 25 m 3 2 82 81 m 2s 66 25 m 3 EU e 1 207 03 m 2 159 m 3 366 03 m 0x2 x D 207 03 m 2p 159 m 3 E 366 03 m ess
37. D6 D10 D11 3 2 D12 215 5 1 5 dl 1 2
38. a b c d TOWO FERREE e DEMA RESE a 100X100 m 100 2 5 0 g m 3 0 g m
39. 102 3 4 3 5 3 6 ID 50 1 3 5 3 8 ID 50 1 ID 50 1 10 5 SS ET W EA m 5 10 0
40. 15f 4 2 1 x 3 61 e e P Q D 3 Si e e P Q e 1 2 e e P Q ops 5 p rM E P Q s
41. 129 2 4 3 1 3 35 2
42. 2 k k AP AP 3 d k AP ER 3 27 k
43. 226 1 gc AUREUS SU 1 3 ORLY RONTE 6 T 10 11 12 13
44. 1 1 23 Qads Ccontrol 1 x Q material A 1 Qads mY h m Contro AS Ciatorial Q m h A w CE 1 00 BE 0 58 Qads m3 h m2 Qads m3 h m2 O KAINE EN O KAINE A TENIEN A 7th7N7 th iI Nr B Mr 2 9 MV T VOC 9 T V0C Qads m3 h m2 9 T VOC 7 tV 7 1 23 Qads Qads m3 h m2 27
45. 1 8mX0 9m Elm F VOC E PS 1 8mxX0 9m 30mm 8 10cm E PS 2 F yx x ERRE 120 u g m lt h 204 g m lt h 70 g m h 1800 u g h 0 5 14 5m h 124 g m 1 17
46. 1 4 1 N 2 Fresh 2006 Fresh 2006
47. 60 2 5 RER sib 3 23 E ee a ON gg 96 H 5 10 0 08 60 120 210 D P Q 4
48. 1 38 1 39 49 1 38 40 fif WIL OX Ww i TTC low e as rez I2 Pl MERE ume MT A MN RC A x 3 T S We p 3 h J PD eS UT DET RXNCEN M TE MT A ri re NUS DX s IN T S N Ram EO E E E R a P rco d a QUE NTC META D Rr SR 2 ES t o de es RF gt au CONT M M HU ME IR P ipse A Es i A P Vk We Kur i ced c imc MES ET C7 M b 1 4 d VA 5 T 1 2 P 3 huc M Exil 254 Mo D RET T oue 7 Sn WM s M b Nt is Y LP I v X m 50 lt A E 1 1 v 1 6 and Mm i 4 Y en gm
49. F El Br 0 7 TT NO2 0 6 05 0 6 0 6 o E 0 5 X 0 4 EIS 0 3 F 02 0 2 E ns 8 01 dM HUY HT No oo BR SP BR SP BR SP 30 80 98 3 101 PERCI D SO42 100 d NO3 87 n 90 78 uw 80 E 70 Ex 60 8E 50 40 37 i 75 Im NE e 14 0 WE NS E E BR SP BR SP BR SP 30 80 98 3 102 208 mg g 10 0 9 0 8 0 7 0 6 0 5 0 4 0 3 0 2 0 1 0 0 0 F E Br 1 NO2
50. 3 138 3 139 P Q DIRO Mode1 B 3 Mode1l C G 267
51. 3 44 F 1 62 1 2 6 2 2 3 6 1 3 4 6 1 1 3 1 R 3 44 3 45 3 45
52. 15 3 2 3 9 3 9 2005 24 MR 2005 8 2006 3 24 8 9 16 1 14 1 6 1 1
53. AUR 230 edis 2 9 OE 6O Batas 105x40 9 195x49 D t 12 5 Ex ll FUN 100 1 L ER UMEN E ES ts12 FEE id E 2 fe t 12 zi Nj I Y saaa a
54. wC ERA am m m m Om wT ESE WII JIS Z 2371 7 g 51 1 39 0 3 1 34 0 1 B 0 3 D 5 0 3 X 0 1 A BHER C A 6 1 34 3 2 3
55. 50mm 5 1 2 3 24 3 25 C 2345 3 24 VIP02 2003 Indoor Air Pollutants Part 1 general description of pollutants level 2 n and standards us F2 TNSS Reducing Indoor Residential Exposures to Outdoor Pollutants 2003 TN56 A review of international literature related to ductwork for ventilatio F3 2002 PETER IEEE RN E S F4 BIB10 2000 An Annotated Bi
56. 07g Pl OR 3 121 0 ava qe miii agi I PTE IEC 1 246 3 120 3 121 ORCON 247 4 1 2 2 1 1 1 3
57. z k C Q M RUNE EI m Xyuym 2 SE Ne Di i l x CX Qi FRAR k Ci qi M RE c M q C RAR k k K ES Oe se 4 N 2 50 HASP C Q m SC XQ 1 2 51 KHE
58. A B S MMP
59. 2X 4 9 2 22N01 A 2 23NO2 2 24NO3 H EE Pal ul Vm 2 7N04 G 2 7N05 F 2 7NO6 E 2 4N07 D 2 4N08 B 2 4N09 C 66 2 8 2x4 6f 450 mm 900 m 450 mm Me KELTE LHZ ARRECA U 7 MR 3
60. 2 F8 5 1 9
61. O m3 h eo 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 NO 3 41 180 O 1605 140 m4 120 i 100 TX 0 f 80 60 4 nie 40 E 20 0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 NO m3 h 20 40 60 80 100 120 140 160 180 200 m3 h 3 43 1 200 180 160 140 120 100 80 60 40 20 0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 NO 146
62. 1 LE o OTE O enri ex 92 x8 SS c 2 tM 3 3 5 E m BE Wigan 7 m h h OTi ff 1 2 3 1 2 3 1 3 ean UDARA 1 3 2 BE E
63. AC Q C 30 70 1 60 1
64. Model A Model B 3 50 3 50 m h T m h 2 Mode1 A 190 76 181 8 Model B 172 19 173 9 EN 3 Modele 146 49 193 1 43 Model B 180 97 184 4 EUM 4m Mode1 B WC Ne 3 Mode1 A buds PQ Model A PQ Ed poss D PQ Model A PQ
65. 2 3 RAMEE a p 3 25 3 122 2 3 2 1
66. s WC NE CL SC MB SE 1 2 1F 75 4m2 2F 62 1m 145 5m2 165m3 h 0 5 h 3 107 4 2005 8 9 11 5 2 2004 6 2 2004 235 A Type A E Type B 250 dn 200 z z nu pia POR 20 10 UE i 10 30 10 200 300 1m 200 3n 5 aima Hn arimil C Type C Ode K IEIP2 ART non 95 iH ft 58 n 100 200 300 im3rhil 3 108 3 36 3 37
67. F7 D4 D5 D6 D10 D11 D13 2 F5 F10 a b D8 37 24 25C 72 D5 25C 4 7 a 200 b p11 3
68. eG 30 2 2 4 3 128 a
69. OA SA O RA EA X A Qea Qsa o A 20 20 20 eel 15 OA SA 10 20 209 6 FI LER D OA SAX Ni RA EARRKE 10 16 9 c 5 14 T A3 LT 102 H 5 Di iz EA RA EA Mal s SN 200 50 100 150 200 Q m3 h 15 50 100 150 A Q m3 h 1 OA SA RA EA RA EA O OA SA x A 20 20 A Qsa Qea HRT 3E TE 20 F 2 0 40 RA EA M E us RA exo 20 18 PQ um
70. 49 3 1 7 2 6 2 0 Type A 3 111 3 41 70 240 200 100 LUN mp a 150 5 din Ao iQ RO
71. 3 5 30 180 20 120 10 60 DL E L YY 0 0 g G G HH une m um f 10 90 in T 2095 120 30 180 Omm 10mm Omm 10mm mi ID50 2 ID50 2 OD100 3 ID50 1 ID50 3 OD100 2 3 7 2 28 0 7 0 0 3 7 3 8 4 1 3 3 0 7 0 5 1 4 1 2 1 6 0 7 3 3 3 2 2 5 14 4 16 0 0 7 18 9 0 7 1 8 1 6 1 1 0 3 7 1 9 0 7 0 5 3 7 3 5 3 5 3 0 0 7 0 0 1 3 1 0 1 7 0 3 3 1 3 0 2 3 13 6
72. 3 1 3 1 3 2 JIS C9603 1988 1 m N 95 3 2 2 3 1 p 50mm 100mm
73. a o 100 E i E 75 I 2 l 0 ST SW TJ KW 3 100 3 101 3 104 6
74. 3 117 3 118 QU et yes p QD 2 sos Ze 0 s pr i p y e 9 j B room kitchen toilets bathroom living room 3 116 Figure 2 Very low pressure fan VEP 9 117 245 3 118 http www aereco com IN SITU PERFORMANCES MEASUREMENT OF AN INNOVATIVE HYBRID VENTILATION SYSTEM IN COLLECTIVE SOCIAL HOUSING RETROFITTING J L Savin M Jardinier and F Siret ORCON ORCON 3 119 3 120
75. 3C X 2 28 2 bed TE 1 1dk 3B 2 29 step 1dk KU bed 3A 2 30 step ut ut ut Ambient temperature 5 8C Wind direction 337 5deg Wind speed 2 5m s Ambient temperature 5 8C Wind direction 337 5deg Wind speed 2 5m s 95 01 01 00 30 00 95 01 01 00 30 00 2ftruss jai ren 7C bfswal P bed a step nwall Ie
76. ACVA ACVA P C G OAM Fb F6 F8 D2 D3 D6 D10 D11 2 3 32
77. 3 IO Cumque Vs 2001 2005 1998 2002 7 CO2 0 000555 t co2 kWh CO2 2 4 C02 253
78. 05152 p NE 5 9582x EN 2 3 Type 1 2 3 6 2 11 Type 1 2 2 12 A Type 2 13 B Type 5 6 G 4 5 RH 2 1 1 2 5 3 4 5 1 4 TO 3 5 1 1 4 1 2 4 7 1
79. lm 2m 4m 2m 1 50mm 100mm 4m Im 3
80. 4 Fo 133 2 6
81. 4 5 12 19 20 1 3 3 6 1 95 LA 35 36 3
82. A 14 50 ID 50 A 100 DA 47 777 RAM d MO A ID 50 A ER 3 7 b 3 8 ID 50 A 3 8 c 3 9 3 l T 1 f ae 2 3 9 109 3 19 ID 50 1 5
83. C02 1000ppm Ambient temperature 5 5C Wind direction 250 8deg Wind speed 3m s Ambient temperature 26 5C Wind direction 181 6deg Wind speed 4 8m s 95 01 01 00 30 00 95 08 01 00 30 00 2ftr russ 0 E 2ftr russ ELT iia 6C Cun asr NEN TE FT step Inwall E2382 27C S e en 2 43 3C 1 8 m3 h 3 X um SF6 1 R22 1 P Ela 1 CO2 1000ppm ES e3 Ambient temperature 5 5C Wind direction 250 8deg Wind speed 3m s Ambient temperature 26 5C Wind direction 181 6deg Wind speed
84. 0 3 m 1 0 0 9 0 8 m um y 2E 07x 0 0056 S 0 6 R 0 3295 hice sr 0 5 e A p ja 0 0 3 i y 1E 08x 0 0003 en R 0 225 0 1 0 0 40 000 50 000 60 000 70 000 80 000 0 5 3 87 0 3 m 196 0 5 um R 0 9953 pet m y 2E 07x 0 0006 R 0 8221 4 000 4 500 5 000 5500 6 000 6 500 7 000 0 59 3 88 0 5 uum 1 0 m 1 0 0 9 0 8 0 7 y 7E 06x 2E 06 s 0 6 R 0 3772 ES et m S n 2248 E ue S 0 3 0 2 0 1 f y 1E 06x 0 0003 oo Sm R 0 1777 0 200 400 600 800 1 000
85. 3 2 300 e 250 A A E AN N A 200 gt A E O ehe dii A9 S ro eMVA 0 A BO D i ANA Q V A Aee A A O e X 100 ss A sobs i A CO AA 3 a eje 1 A Qua 50 A o 0 4 AAAAA 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 3 39 144 2
86. 32 04 susa 20L 1 7 1 7 30 VOC 2 VOC 8 24 48 72 168 5 28 1 23 1 8 1 9 1 10 1 25 zx 1 23 20L SUS304 28C VOC VOC 1 2 8
87. Er ML E 3 2x4 3
88. 6 2 13 A 3 3 35 3 35 0 1 2 3 1 30998 HE
89. WCG ME EM R 2 8 2 2 IF VOC 24 k 2 SF6 R22 Daon
90. 48 a b 2 a JIS Z 2911 1 37 JIS Z 2911 DB 1 37 25 25 50 50 100 E b 1 37 JIS Z 2911
91. 0 29 0 08 34 1096 e SP 0 05 Q h BR 0 02 m h e ST ST 0 49 m h TJ 0 18 m h 0 78L 0 21
92. 2 8 B KR 157 bm h 95m h 168m h 0m3 h 165m h 243m3 h 175m h 403m An 2 3 1 1 zA 356c Y C cA 356 120 7 2 9c m m 2 5 90 0 52 h 0 5 h SE AE K 1 200 ni h 210 m h FH B 1 filins tend k 40 Iq j 7 8 CN aV rzJy v8 E
93. uu E TO omm d iv 3 42 KW SIME ZE ccr B o5mmd iv 3 43 KW 202 b 1J se Li HB Bm 203 c ST s e IH Smm d iv 3 46 ST A au Wi qa yd Jj p ns audi modus b T NE s e id t ede ij T ur A e at n uae me dm Pa um Ear T a ET EA pm ig m LI 1 Fmc i13 y LM a ar 204 d SW es
94. 5 p 30 1 5 m g G h dia TE THE zl zi zi p ud 1 6 m 95 ba Ms 7 EM NEN NEN NR E R ct E 2 p gu e a 1 7 m Lu g m h OR
95. 15 k 18 2 139 3 3 1 15 7 1
96. e 7 a lt 4 n Oc 2 du T mm c Er s am mW El 3 B 5mm d iv pum 2 3 48 SW E ud B 5mm d iv 3 49 SW 205 a x 3 97 x 3 98 SW g BR SP
97. 04 5 11 05 4 7 3 47 3 48 No 3 6 18 MM iA izmECasHBILC350 WAA WNW 2 7 2 149 37g 2 E kep 60 50 _ 40 3 E Up 30 m m 20 Oo 05 O 04 10 0 0 10 20 30 40 50 60
98. 3 5 100 3 6 S za EN ID 50 2 20 10 15 8 10 iut E s 5 6 0 m S i Hn D a P 4 qa 5 G k w e EM 10 mi 2 15 20 0 3 7 3 8 4 1 3 3 0 7 0 5 1 4 1 2 RHB 1 6 1 7 1 7 1 4 0 4 0 4 0 7 0 5 47 6 4 14 7 0 7 1 0 2 4 5 4 1 5 38 4 5 7 6 3 2 1 9 2 2 3 6 2 1 3 7 1 9 0 7 0 5 1 6 1 8 1 9 1 5 0 4 0 5 0 7 0 6 SeBe 3 8 4 2 4 7 3 6 0 7 1 0 1 5 1 4 eB 1 6 1 6 1 5 1 3 0 3 0 2 0 6 04 6 9
99. VOC 24 18 6 JIS A 1901 VOC JIS A 1460 1 19 i JE R 1 19 20 L 28C 50 0 5 h
100. Oma o3u2 0m 3 36 3 37 10 50 m gt 3 36 130 OK OK NG Q x 3 3 3
101. 3 51 3 51 m h 2 164 11 141 56 145 61 151 07 174 23 169 42 167 22 162 18 mh 10 8 AO 5 1 4 1 8 m 4 9 9 4 6 4 141 7 140 1 140 9 135 5 138 3 141 6 157 2 159 2 151 1 zs 3 171 64 146 41 150 89 5 3 148 7 156 95 r3 151 4 160 6 158 1 147 0 Mode1 F Mode1 G Model H Model C Model D Model E 3 ik
102. e 3 40 e 3 41 3 21 SW Vau gus 180 Em EE y pm emn e mrt v iiit di n u H u fE u E f u u mecs he m eph ETI TOEA E PEES T e A A t FLIT TIF hi Mee be coe uc ML L4 TUUM Le EG IS Sur x n TT TT m PTET EESTIST Me irt 1 Es y UY Y 14 em drain on agn TT TE OP TT GY PIP tawa sada 1434 tit UI TTY TI da 4317 XR 40 SW 3 wa i A E T zji P PL MU gt PATE f L i LL trem ce pO Ld ypa w din de gt d x
103. ug m3 YY p g m u g m h m 0 10 2 5 10 9 11 0 TREF m Ce m a n u g u g m n b 2 2 0 227 0 0909 26 4 0 16 UM 0 455 0 1439 0 6 11 2 2 5 2 5 2 5 MENEE 30mm T mum JIS A 1460 4 1500 E FEE S 1000 E E L EIS N mg L 500 JIS A 1901 VOC WATNE ERO i E o 0 0030 EH 0 0025 L m m 0 0020 yg Cung rm rr py 5 REA a T 0 0010 1270 288 6 369 167 7 1040 236 4 375 170 5 us 7 Efron E U Ce
104. ne 3 49 Deio Ds AR Ei lt 2m et v Zv 9m Zv 9m Am a 7 Lx a V ese 7m 2 7 4m v wx a zea an a o moxa PVC 90 HY E135 R D 3 pee did ka 135 ub Ps 0 502 7F 100 A B C D E gigs Mns 50 263 50 2m Mode A 100 2m 100 2m 100 50 50 4m Mode B 100 4m 100 4m 50 50 4m OO OOO 4 K
105. FF F3 221 1 he 3 33 3 34 3 33 JIS B 9908 EZG 1 Je As 3 4 Class Gl G2 G3 G4 F5 F6 F7 FS F9 p DANTES 3 34 Classification of air filters according to EN 779 Final pressure drop Average arrestance Am Average efficiency Em Pa of synthetic dust of 0 4 um particles 250 250 250 250 450 40 E 60 45
106. e 2 e 3 e 3 19 TJ Vague ewe 2 i 20 M K m 176 Mim 3 36 TJ ITABIDI RRE 7 218 RAAE 4 Geo nte NS EA PH Pre i Se yy 3 37 TJ 177 Abi c ST K 3 20 3 38 3 39
107. 1m Im 2m os Erm Hla 3 126 3 127 Bl O IRA ZB e O N O O AALEJHEIES 0 p i a a 20 i 2 LLLA a o mo a a zi ra EEE 248 7m h ff d K g 60 A L v2 1 um SN I 80 100 120 0 0 1 2 3 4 5 6 7 8 0 1 2 3 4 0 100 200 300 m m m3 h 3 126 3 127
108. JIS B 8330 2000 JEM 1386 1989 300mm 300m 2 C
109. 1 20 220 u g m 24 5 TVOC T VOC 1 21 0 28 28C 28 35 28 35 38 33 Ag 2000 T E Hy O T VOC z 1200 B 50 Lu x 800 400 0 7 0 7 14 21 28 35 42 B 0 58 C 1 00 2000 2000 1600 Ni O T VOC N hy O T VOC 1200 1200 c eo bp bp u u ss 800 ai 800 400 400 0 0 7 0 7 14 21 28 35 42 7 0 7 14 21 28 35 42 a D 0 58 F RAS BO 0 58 2000 2000 T N Mz 6 T V0C T M Mz 6 T
110. 7 9 1 3 122 3 1 HR EA SA EA OEA ORA n RA RA 1 MENN 3 3 122 2 2 2 a
111. 20m h 100m h 100m h 5 10Pa 4 oe ne bpetesre 1 20 20 m3 h ENENE A Ei B UE GC M D E O m h 30 4 130 2096 25 W B E 8 aa TIT 120 10 90 5 Nn 80 0 1 70 1 2 1 2 1 4 a 1 1 2 2 3 149 Bo mh EE Aa gg B medic ENES D COE lt m h 30
112. N HE N N 2220 2 21 pev 64 3 2 1 E Bec WERSBHDAenChZEE Q N FR BRC gt 5 900 25 J 233 IEEE mg m m ppm mwlmE a woe pe
113. 1 K 3 26 3000m R 3 27 3 26 LT 1 HEZ 7 R7 IY RAZ FR Jer 1 2 3 4 5 3 27 0 15 mg m 10 ppm 1000 ppm 17 C 28
114. KW TJ GER eKW TJ TJ sST eSW e ST ST 3 17 mM TIATIA E pa Fen e 172 ate e TN EX zu WS yx Em SE TN X IN N AS Miili Li n
115. 1 2 4 C0 3 47 3 48 7 CO 0 0005559 CO kWh 1 2 4 CO2 3 46 F F MJ MJ MJ 4E 130 000 4T 000 3 47 LMJ 3 48 CO
116. 13mm HEEE 2 3mn a c a 7 HRS JIS A 1901 b 7 JSTM H 5001 VOC 1 4 1 4 Muy vt vy o m p Xfvy p Y JuuN ve y 1ppm Hk 1 10 c 7 JSTM H 5001 1 1 5 1 12 VOC 1
117. 209 3 17 14f 4 ON ki 1 1 1 3 2 1 04 6 29 05 S 12 3 45 E NEN 2 O 148 z V I Osta I 3 1
118. 12 10 Bl H R 50 3 20 3 a JIS A 5422 JIS A 6711 R 3 21 3 Bd 2002 6 6 1 1 1 1 3 E EE 55V 9 LC 3t eos sj s ee sl 1 1 cU yup AE w wW 1 3 6 2 A 52 4 5 Ka
119. 6 6 BB C5 3 38 Type A DNUS T jae iiL m 19 AER apte ac TH HAS 250 A 192 6 41 2 165 396 3 9 ad 172 3 39 1 5 1 165 38 5 6 6 2 um dd 175 40 1 2 7 165 38 5 6 6 m 166 38 6 6 3 166 38 6 6 3 2 ed 187 7 404 1 9 165 38 5 6 6 a n Ad 191 5 41 1 0 2 165 38 5 6 6 2 NEC 167 38 7 6 1 165 38 5 6 6 sd 2d 194 5 41 3 0 2 165 39 6 3 9 j MEE 168 5 38 8 5 8 165 38 5 6 6 ERT 175 9 40 2 2 4 165 39 6 3 9 1 ETT 2 171 9 40 165 39 6 XM EL 170 1 39 9 165 39 6 i SAT ISP 5 166 4 39 7 3 6 165 39 6 3 9 2 199 995 99 EMEN ed E d 189 6 41 0 5 165 39 6 3 9 X Type A 238 b Type B 3 39
120. 0D 100 2 3 12 A OD 100 2 3 12 0D 100 2 3 13 0D 100 2 1 3 2 p100 OD 100 2 OD 100 2 10 5 E in 0 iz 5 10 E 0 7 1 8 1 6 1 1 e 3 8 2 2 5 3 6 1 0 4 2 1 1 9 1 6 0 9 1 4 1 4 0 5 O 3 3 2 1 4 2 4 3
121. eee 1 2 1 3 2 4 D 2 3 15 16 80 86 90 90 90 90 90 9 92 92 93 93 93 94 95 95 95 95 96 97 97 98 99 99 99 102 108 109 109 110 113 2 2 1 M ET TI EU 0 0 1 2 3 4 5 6 7 8 9 10 k 2 3
122. 10mm D cam ID 50 3 ID 50 3 25 20 15 10 5 a 0 5 EA m 10 15 20 25 E 14 4 16 0 0 7 18 9 E 4 8 5 1 0 2 6 1 13 4 21 2 5 0 5 2 9 6 8 8 0 3 5 4 3 eB 14 15 1 18 eB 5 1 5 4 0 2 6 6 eB 15 17 1 20 4 5 4 8 0 2 5 7 15 22 6 6 7 1 8 2 3 7 4 7 12 21 4 4 6 4 7 9 3 3 4 0 3 11 104 Ice 2
123. se 2 1 IE RANGE EKAA AAPEEE REN N A AOE YERRCRU UY SC a na pn ee in gi 3 20 ST MA O BUR MM iM MIELE E Er o GETS 2 WN TTP TH M MINORE o Ii TRE TUER i uii 178 ST 3 38 Lt w 3 39 ST 179 d SW 3 21 3 40 3 41 e
124. 28C60 RH 18C H FE WEK 96 day 1 4 50 fs H Zi day 1 5 day 1 6 28C GB 18C50 RH GB 18C20 RH i day 1 7 18C v GB 33C50 RBD o GB 33C11 RHDD day 1 8 33C 100 80 60 40 x 28 50 RH 28C60 RB 28 12 RH 20 18C50 RH 18 20 RD 33 50 RH 33 11 RH 1 9
125. 1 16 1 2 1 3 1 14 1 4 1 16 pl ULL p Ber irr NE 1 2 A 13 2005 07 22 2005 07 22 2005 07 25 1 3 14 aero m Gm m mme r 1 jJ i L a E ET bire TE EN mmm r an a E EE E co GL lt pm mem se ja Fe EPHA T ag E 0 34 14 x 1 RE FERMEI dz o ZESURTEAAR E VIA uh Iv D Llu R 1 4 15 3
126. 24 1 3 152 gt BEITER U AA TZ im 2 153
127. BR 1 P Q 9 7 5 1 s zx 3 16 2005 2006 9 10H 11H 12H 1H 2H 3 KWS ZM 1 2 3 TJE uu HEB 2 5 4 EE i STA y 1 2 3 4 Z 7S SWE 1 2 3 98 BR 80 1 PIER ns 4 30 di 98 1 X2 2 SP 80 1 2 3 4 5 30 1 2 171 4 3 1 3 17
128. 3 3 3 2 2 5 E 1 5 1 6 1 2 1 0 0 8 0 1 9 3 2 3 2 3 7 0 0 0 0 0 0 1 6 1 6 1 3 0 0 0 0 0 0 DE 1 5 1 5 1 1 0 0 0 0 0 0 3 2 3 4 3 8 0 0 0 0 0 0 3 1 3 1 3 6 3 8 103 ID 50 3 ze fdv Bd 3 9 ORT d 2 C e E s EU 10mm RIY Oe Les AE 3 10 ID 50 3 3 11 parece audes pem HUMUS HUM LC BER
129. D 100 100 3 146 3 146 x 3 145 c
130. 169 3 33 n lt 2 P Q 4 eX 1 2 1 3 32 3 2 3 32 4 LEA Hm 3 32 3 33 SwemaMan80 17O 6 3 16 9 2005 9 7 BR 5
131. JIS C9603 1988 1 3 I I Ilf I L 1 1 L JIS C9603 1 4m
132. GB 28C50 RH GB 28C60 RH GB 28 C 12 RH GB 18 C50 RH GB 18 C 20 RH GB 33 C 50 RH GB 33 C 11 RH 0 000 0 005 0 010 0 015 0 020 kg kgD A 1 10 jx 28 C50 RH 28 C 609 RH jx 28 C 12 RH jx 18 C 509RH IR 18 C209RH jo 33 C50 RH Jo 33 C 115RH 0 000 0 005 0 010 0 015 0 020 kg kgD A 1 11 1 Q m 1 5 1 2 2 1 14 1 14 5 28c 1C 50 5 0 52 0 05 h 2 m n J SUIS 21 29 35 42 H B AUS UP EF 100 u g m 500 u g m 3 JSTM H 5001 2005
133. BD gt Bau 13 mE 20 PE ERR m mm 015 ess 67 ois 655 80 RC mm Der am ra 94 ARE E FC D 30 ECCO 80 mm sg g S HORE GE 075 82 7 KHE Amon ED 0 rcs Lc o49 90 so C 70 PEE Er 92 use o f re Eaa 0 ES E 6 0 55 152 55 S Xx LI Lu Lec 42 220 100
134. n M i he m AME 2 31 2x4 2 32 2 35 2 36 2 zm 68 Bh ea det But LP Ee b Tas x i 2 39 2 40 2 41 N 2x4 IE eZ pessime cq AI Ee ge 69 2 9 2 10 X 2 10 1 2 N DEN 1
135. 1 26 1 27 Aa C 106 16 144 4 0 139 1 m 138 4 p 35 4 SR 1 27 2 25 gt 7 E ERE 100ml min 24hr SR mL min a x 100 mL min 1 27 C _ 3 xl1060 ee R 2 3 28 9 2134 25 C gm7 s g SR mL min Sampling Rate h h 10 mL m 36
136. Gd E 809 model model model model model model model model model model model model model mode A B C D E F G A B C D E F G 3 142 100 9 lt 30 5 25 M 20 xx 15 10 A BCDEF GABCDEF GABCDEF GABCDEF GABICIDIEFIG A B C D E 3 143 o 30 25 M E 20 m 15 10 AIBICIDIE FIGIAIBICIDIEIFIGIAIBICIDIEIFIGIAIBICIDIEIFIGIAIBICIDIEIFIG A B C D E 3 144 2O 7 7
137. C 0 3 5 0u m 0 3 0 5 1 0 2 0 5 0 gm 0 3 rm 0 5 pm 5 0m 1 0 um 2 0 pm 4 10 5 10 1
138. SF6 R22 1 HCHO LDK CO2 1000ppm initi Pee A da X 2 46 2 49 C02 3 1 1 5 NT 13 Mate A bU HCHO 3 384 SF6 R22 1 3
139. 1 JIS Z 2911 JIS Z 2911 TATAI Z APOR ZE PAA CRAP OBS E zx 1 36 Q A 2 105C 3 5 ERE LO 3 HEJ b
140. 3 58 3 120 100 O 80 e E E 60 O id O O O 40 O 20 0 0 20 40 60 80 100 120 m3 h 3 56 1 3 151 m3 h 3 54 3 250 200 150 1009 Q 8 50 S 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 3 55 O 3 250 200 150 100 50 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 No 3 57 1
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142. 1 ERE AXA HEURE f MM IMMO RH MM HH MM i de eee II 216 218 219 219 220 2 1 222 223 2 220 220 220 220 A220 220 231 292 238 299 1 257 2 257 3 258 4 259 5B 1 2 260 7 5 261 1 261 2 261 3 262 7 6 i a EE dd dr 0 dd td 0 de 263 1 263 2 266 3 267 7 7 SS RE EE RE SH 271 1 271 2
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192. b NADCA 2cmX50cm 2 100cm 0 381m 15 NADCA 0 75mg 100cm c 216
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217. 2 00 d 2 n 5 180 JIS Z 0237 1991
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221. 31 2000 D 3C Outsige gt step m3 h 1800 1600 E 3C Outside gt bed m3 h 1400 E ts 3C Outside gt bed m3 h 1200 1000 3C Outside gt ut m3 h 800 3C Outside gt ldk m3 h 600 B 3C Outside gt ldk m3 h E 3C Ex_chamber gt Outside m3 h 1 2 3 4 5 6 7 8 9 10 11 12 3C ldk HCHO U g m3 A 3C bed HCHO g m3 150 3C ut HCHO U g m3 M 3C step HCHO 4 g m3 100 50 0 1 2 3 4 5 6 7 8 9 10 11 12 3C ldk SF6 ppm u 3C ut SF6 ppm A 3C bed SF6 ppm 3C step SF6 ppm 3 1 2 3H 4 5H 6 7 8H 9H 10H 11 12 3C ldk CO2 ppm 3C bed CO2 ppm U 3C ut CO2 ppm 3C step CO2 ppm 1000 500 1 2 3 4 5 6 7 8 9 3C ldk R22 ppm D 4 3C bed R22 ppm 10H 11H 12H 3C ut R22 ppm e 3C step R22 ppm 1 2 3 4 5 6 7 8 9 10 11 12 2 39 3C
222. 5 2 9 39 46 2000 3 6 AEBX HD E 543 57 64 2001 5 7 M Hyashi M Enai Y Hirokawa ANNUAL CHARACTERISTICS OF VENTILATION AND INDOOR AIR QUALITY IN DETACHED HOUSES USING A SIMULATION MEYHOD WITH JAPANESE DAILY SCHADULE MODEL The International Journal of Building Science and its Applications BUILDING AND ENVIRONMENT Vol 36 No 6 July 2001 721 731 8 k IBEC No 126 69 73 2001 9 9 2 3532 51 57 2000 6 10 1 0
223. 106 0 0528 A1 10m3 h A2 50m3 h A3 110m3 h 3 16 12 4 X E 0 0647 B1 10 B2 30 3 17 12 88 EX E 0 0528 C1 15 C2 30 C3 60 3 18 3 16 Bd 3 17 3 18 15 30 60 107 SOL 4 3 5
224. 04 60 180 3 51 3 53 80 3 52 11 0 8m h 8m3 h 0m h gt 05 O 04 0 5 10 15 20 25 30 m3 h 3 52 1 150 0 10 20 30 40 05 O 04
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228. Mode1 A PQ 0 Pa 201 6m h 200 6m h 250 201 56m h a Au 146 49Pa Ex in Q 150 N tm 4K 100 N T N H 50 X IN 200 62m h 0 N O Pa 0 50 100 150 200 250 300 Q m3 h 3 137 3 Model A 3 50 3 51 266
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244. 3 33 OMERA OMERTA 3 33 2
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252. L1 0 455 0 0027 39 1 29 7 jg nh Ce Ce u g m 40 a m h o m h 2 JIS A 1901 Wisi s 20L JIS A 1901 3 Merck 1 28 25 20 e 15 E na 10 5 0 0 24
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256. A Kp B Kp vac MEL B EJ Jo Je 2 oS OBEN HH Here B KB E P a 232 5 2 5
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258. ea 0 07ppm 1 0 08ppm 0 10ppm 2 2 WEWZZZZZZZZZZZZZAN REHE 0 07ppm 2 1 HP ZZ ET MV EX 0 005 ppm 0 88 ppm 1 aW E ZZ 0 EFPIA ppm CUTS 0 005 ppm 0 20ppm 0 005ppm 0 03ppm 272 0 KEDA 0 03ppm 0 05ppm VOC 4 4 x A 253c ni C C oA 253 259 1 0c m mT 2 0 0 05 0 1 0 15 2 5 VOC 3 92 1
259. 1 2000 TO La m 1C Outside gt step m3 h 600 Fi shsuuoisnsn nh pun E FAC Outside gt bed m3 h 1200 F l TODOS AAE E E Dua DU DLE 1C Outside gt ut m3 h 800 7 TT 600 BPXIC Outside gt ldk m3 h 400 M cocer he 200 p E PM 1C Ex_chamber T E FT EET ee le gt Outside m3 h 1 2 3 4 5 6 7 8 9 10 11 12 rig eiim 1C ldk HCHO ku g m3 7A 1C bed HCHO 4 g m3 150 B 1C ut HCHO 4 g m3 1C step HCHO J4 g m3 100 n 0 1 2 3 4 5 6 7 8 9 10 11 12 1C Idk SF6 ppm B 1C ut SF6 ppm A 1C bed SF6 ppm 0 1C step SF6 ppm 3 1 2 3 4 5 6 7 8 9 10 11 12 1C ldk CO2 ppm A 1C bed CO2 ppm B8 1C ut CO2 ppm 9 1C step CO2 ppm 1000 1 2 3 4 5 6 7 8 9 10 11 12 9 1C ldk R22 ppm A
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262. 3 157 157 158 158 159 163 165 168 171 172 142 182 191 202 210 212 212 212 212 213 213 214 214 214 215 215 6 1 6 2 6 3 f 2 1 3 1 4 5 1 5 1 2 5 1 6 1 2 5 1 7 1 2 5 1 8 1 2 5 1 9 5 2 52A 52 2 52 9 522 4 1 2 52 5 5 226 1 2 3 4 1 2 3 4 6 4
263. ASTE lt B Ec 1 MANNER MER 2 43 2 56 VOC 1 VOC 2 56 0 06ppm 1 0 06 ppm EEE 0 07 ppm 2 0 08 ppm 0 03 ppm 0 01ppn 0 005 ppm 0 03 ppm 0 08 ppm 0 02 ppm 0 03 ppm 0 07 ppm ca co CP ocu 0 005 ppm 0 88ppm amp F 0 005 ppm 0 20ppm 0 005 ppm 0 05ppm
264. MEM ge A Y vr 7 0 T 2l 28 99 42 14 1 15 5 TVOC 7 DNPH 1 0L min 30L HP LC VOC VO C 0 1L min 3L GC MS VOC
265. 0 29 h o 3 250 m h 0 m h 3 3 30 k 85 X 2 4 1 2x4 C 1 67 4 2 3 0 25 0 05mmAq 67 1009 147 8096 EET SE 2 65 OO SENS 13 11 Sly GXS2727U Hi C 1 2 3
266. 0 58 3 89 1 0um ESTA 2 0m 198 1 0 0 9 0 8 0 7 y 2E 05x 0 0006 0 6 R 0 5347 3 UP m A m et d y 1E 06x 0 0003 UA R2 0 1777 0 1 0 0 0 50 100 150 200 250 0 59 3 90 2 0m 5 0 m 1 0 0 9 0 7 R 0 9842 06 3 Dee m A an 0 3 y 3E 05x 0 0004 0 1 0 0 0 5 10 15 20 25 0 50 3 91 5 0wm b 3 92 3 96 e 3 p 193 10 11
267. 1C bed R22 ppm BD 1C ut R22 ppm 1C step R22 ppm T e o D O Q QO A 1 2 3 4 5 6 7 8 9 10 11 12 2 40 1C 1 2000 B 3C Outside gt step m3 h 1800 1600 D 3C Outside gt bed m3 h 1400 3C Outside gt bed m3 h 1200 1000 EU 3C Outside gt ut m3 h nl E 3C Outside gt ldk m3 h 600 mn 400 EE 3C Outside gt Ildk m3 h 209 E n jest Es 3C Ex_chamber 0 ars EROR BLA sa pasi B s PL B gt Outside m3 h 1 2 3 4 5 6 7 8 9 10 11 12 ring AM S ASC Idk HCHO g m3 A 3C bed HCHO 4 g m3 0 3C ut HCHO gu g m3 9 3C step HCHO U g m3 150 100 50 0 1 2 3 4 5 6 7 8 9 10 11 12 3C Idk SF6 ppm B 3C ut SF6 ppm A 3C bed SF6 ppm 3C step SF6 ppm 3 1 2 3 4 5 6 7 8 9 10 11 12 ee ATIC ldk CO2 ppm A 3C bed CO2 ppm B 3
268. 50 2005 6 234 1 10 5 3 107 3 3 3 3 108 Type A Type B Type C 100
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281. i T 4095 30 20 10 1 2 3 4 5 6 7 8 10 11 9 12 NN ae 3C 3C 1C 1C 2 50 2 51 z 1C Beam 3C Beam x EHE 1C Crawl 3C Crawl A 3C Beam t 1C Beam 3C Crawl 1C Crawl 100 100 90 UNNNSNNSNNMNHUSM GOGO 80 ON 70 OW 60 OOW I aAA EE R S a a a a a a a a 50 SOA l 40 40 mE 30 S00 fk 20 20 SR 10 10 7 0 0 7 Rn T LL 1 2H 3H 4 5H 6 7 8H 9 10H 11 12H 1 2 3 4 5 6 7 8 9 10 11 12 2 52 z Beam SF6 2 53 z Crawl R22 RE 3C beams SF6 ppm 3C beams SF6 ppm 9 1C beams SF6 ppm 1C beams SF6 ppm 130 120 110 100 90 B FSR3C crawls R22 ppm W 3C crawls R22 ppm 80 1C crawls R22 ppm 1C crawls R22 ppm
282. 2 i n e o 90 Oo x 20 70 16 2 30 3 20 10 m3 h C1 eo 0 10 20 30 40 50 060 70 80 390 100 m3 h 3 40 145 3 41 3 42 8 4 2 5
283. 2 2 4 5 2 DEIL 2 1 2 N N N NM P 2 42 NO1 Type A 8 N02 N09 7O 2 3 3 Q N Type T 1 6
284. 5 3 123 1 2 16 3
285. Fi gt ST EDS e SW d SW 40 0 20 0 0 0 7 17 9 5 10 25 12 14 2 2 3 24 KW 3 65 182 x 3 66 e BR e SP e 35 E SP _ 309 30 SP 80
286. M _ 7 e gt e e e P Q e SWF 125 8 450m h 10m7h 8 450m3 h 1 7kg 3 31 SWF 125 168 0 3m 0 5gm 91 0 um 2 0gm AE 5 0um
287. New mark B New mark B T95 2 20 Fresh2006 CO2 2 1 1
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290. mE E OER T KOSCE Q mL min 3 EF CX CX 10 A X d A A SR ec em cs A 273 25 S EF ee T 3 hxA 5 EF Cx gmh C gm Q mh A nm 0 044 SR mL min s ug h h 10 mL m 3f b JIS A 1901 VOC JIS A 1460 F 9 1 28 1 13 1 28 JIS A 1901
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298. b a b 3 3 42 3 43 7T No 87 J0 1999 3 8 1 D 2 pp 1145 1146 2004 248 3 42 MAE MIERE ig w m h aa li 0 3 49 10 17 6 1 p 5 18 20C 28C 26C 0C
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301. 2 7 30 2005 9 16 1 pp 177 180 1995 17 pp 325 328 2000 18 556 pp 91 98 2002 6 19 2 pp 180 184 1995 20 57 pp 1177 127 1995 21
302. 24 48 72 168 1 8 1 9 31 300 1 10 A i PARERI 1 25 2 MDF EPS 5 1 24 1 11 1 12 1 24 i cm m m F x KAINE Fc2 H12 VATNF tM Voc N HM V FRR TANT ME MDF F 7 E P S BEST Tnt VOC 1 11 2 N j Ji 1 11 39 JIS A 1901
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305. Relative humidity 95 Temperature C Fig 10 Isopleth systems for mycelium growth of the mould fungi Aspergillus re strictus on the left and Aspergillus versicolor on the right in depend ence on temperature and relative humidity according to Smith 126 The numbers at the isolines represent the growth rates in mm d 3 lsopleth 59 2 1 1 1 2004
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311. 1998 11 30 2 504 25 30 1998 2 12 513 31 36 1998 11 13 516 23 28 1999 2 14 3 NO0 573 P 65 2003 11 ee 15 M Hayashi H Osawa THE INFLUENCE OF THE CONCEALED POLLUTION SOURCES UPON THE INDOOR AIR QUALITY IN HOUSES Proc int conf INDOOR AIR 05 Paper ID
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316. 48 72 96 120 144 168 hr EPS 1500 1200 so 900 3 n 600 300 0 24 48 12 96 120 144 168 hr 1 28 4 1 1 29 n 1 1 n 2 2 2 60 60 50 50 40 40 s s u u gg 30 dg 30 g g 35 E 20 20 10 10 0 0 0 24 48 72 9 120 144 168 0 24 48 72 9 120 144 168 hr hr 60 60 50 50 40 40 E i u u gg 20 dg 30 gx g E E 20 20 10 10 0 0 0 24 48 72 96 120 144 168 0 24 48 72 9 120 144 168 Chr hr 1 29 42 1 30 n 1 1 n 2 2 2 1500 1200 900 MEE u g 600 300 0 24 48 72 96 120 144 168 hr 60 50 40 30
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320. B UCM JURA ELS CO ADD ARIS C BELAN M141 lyINO AG weg BEOR y 6 mp 0 Ww w Ed Microsoft Excel xls FE CE RTV FAT PRO T A H Adobe PDF B JDc E AT XB o c rx 5 EL MAD 100 FoM TE c ME emm Be S 34 J pol I R H METUS ja zu S o A B C D E Sststiii A 2 BERE ovo a EEEE 226 225 226 280 8 5n 1 i EE 3 6962 eos 6962 6962 6962 oo oof ooo VADERA EOIEABE 000 000 000 ooo oo0 000 000 10 11 12 100 135 10 8B096
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322. N O N CN CN CN CN CN CN 3 76 0 5m 191 0 59 TU 231 0 ui m LO LO st st st co m N st lt CN N N N N N N NN T N N ON in co es eo CN N CN N CD N c c AW LO TY LO N N c c O LO LO LO CN CN CN e CN CN CN CN CN CN CN Bil s KW a TJ e ST a SW BR SP 3 7 1 0 m 2 0 m 2005 9 25 LO srt lt lt m m N srt lt b CN CN N N m N BN N N CD N T CN 7 N TS co N c N PS c N EDS LO N DS co co LO LO LO CN CN CN CN CN CN CN CN CN Hi c 1400 1200 E s KW 1000 A TJ 800 s ST a 600 s SW 400 BR 200 E SP 0 LO LO s MU lt co co N st lt N T N N m N N N N NS Bw TA N T TA SS SS gt CN N CN AS CD mE M T
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326. 0 72 D5 25C 4 7 JADCA 3 29 CIBSE 3 30 CIBSE 3 31 3 29 DI1 100 cfu m 30cfu mi 218 3 30 Classification of air sampling microbial limits F5 Category Colony forming units per cubic meter cfu m Low 100 Medium gt 100 but 1000 High gt 1000 3 31 Classification of air sampling microbial limits F5 Category Colony forming units per cubic meter cfu per 10 cm Low lt 10 Medium gt 10 but lt 20 High gt 20 Fo D8 D1ll 5 1 6
327. 0 0 RB 3 7 2 2 0 7 0 0 E 1 6 1 1 0 4 0 4 4 7 1 7 1 0 1 0 e 3 8 3 1 1 9 1 6 eB 3 7 1 9 0 7 0 5 E 1 6 1 3 0 4 0 5 3 8 2 5 0 7 0 4 1 6 1 0 0 3 0 4 O 6 9 1 8 1 5 0 8 3 9 3 2 2 1 1 8 2 4 1 6 0 6 1 3 3 7 3 0 1 8 1 4 3 4 ID 50 2 4 3 3 3 5 U S T b 3 3 ID 50 2
328. 0 30 00 Ex Ex bed pad og step nwall gt 0 14C9 53 21C 18C 14C 29 4 1 6 DIT 29 6 p 8 4 3 amp 80n iftuss beamy 8C Sup 7T 94 a 7C y Idk pa u a 18C 18 Cp pu 1 T D 9 U RC 2 34 3C 2 35 3B 7 1C 2 36 2 bed 1 1dk 1 1dk 1B 2 37 2 bed 1100 1dk Ambient temperature 5 8C Wind direction 337 5deg Wind speed 2 5m s Ambient temperature 5 8C Wind direction 337 5deg Wind speed 2 5m s 95 01 01 00 30 00 m 95 01 01 00 30 00 2 36 1C 2 37 1B 3 NH K
329. 0 LE 60 Eu lt 80 450 805 E 90 450 MM 90S E 95 SSE 955 Eg NOTE The characteristics of atmospheric dust vary widely in comparison with those of the synthetic loading dust used in the tests Because of this the test results do not provide a basis for predicting either operational performance or life Loss of media charge or shedding of particles or fibres can also adversely affect efficiency see annexes A and B F10 DI 2 Ha E CE 222 F8 5 1 8
330. 00 b a b 262 7 6 1 NA i BAM PQ Mp gi ioa ma iii M P6Q 12 PQ
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332. 1 h 1 t 1 t d F a F F F 1 F F i t k k k k F k r I Le 1 JIS Z 2371 Table 1 Mould growth index in asseements and modelling Index Growthrae wt Spores not activated Some growth detected onl m microsc cop y Coverage CURRERE 10 New spores produced Coverage more than 10 96 Coverage more than 50 Coverage around 100 96 of Lic mex Ul 1 1 H ye 1 1 Ee 84 112 140 168 n 84 112 3140 168 Time days Time days x c T a o Figure 2 Prediction of mould development on pine sapwood resawn surface at prevalent ambient temperatures 5 and 40 C and prevalent ambient relative humidity as a function of exposure time using the mould index Viitanen et al 2000 2 Viitanene Mould Index Relative humidity 94 0 10 20 30 40 500 10 20 30 40 50 Temperature C Fig 8 lsopleth systems for spore germination of the mould fungi Aspergillus re strictus on the left and Aspergillus versicolor on the right according to Smith 126 The isolines indicate in dependence on temperature and relative humid ity the germination times in days entered numerical values The points mark conditions under which no germination took yet place after 95 days 58
333. 1 24 28 2 4 1 28 20 g m 2 2 5 m hm 1 0 1 5 m7 hm 3 VOC
334. 20831 1826553 2256317 99 99924 1 TiO Ei 4651928 465192 4651908 46 51903 4651855 5 meet 17 17 16 17 16 6 0 22674 0182886 0182085 0182657 0 225633 7 113369 0 731537 1 213888 0 913277 1128159 27 B A AEEA EX 10 nrpt tetfrt mfwwrt mfwrl mainrt check Ee 1 100 75 T TRUR TARRA TT 284 7511482 0 EA 2 100 875 IEn1028 1974411 8758965 0 33 3 100 93 75 2115326 93 79311 0 14 4 100 96875 2185822 96 89636 0 15 5 100 984375 2221069 9844856 16 6 100 9921875 F 2238693 99 22409 0 7 100 9960938 eta 2247543 9961281 0 18 8 100 9980469 EIUS 3 2251968 9980621 0 19 9 100 9990234 2 B 2254143 9990273 0 20 10 100 9995117 erp E 2255249 9995232 0 Ea 11 100 9997559 Ee 2255783 99 97597 0 22 12 100 9998779 2256088 9998894 0 23 13 100 999939 rl fe 2256241 9999504 D 14 100 99 99695 225 2 10 P T SSS IERE A TOITOI
335. 21C 2000 18C 14C AQ Ah 922 9 y 10 4 q 1ftruss 73 beams2 8C 1 0g 8C Sup s P Ex Sup 7C 9 lo d T A 18C 7C Idk 1fpart ut 8 14 7 18C D 18C4 5 18C m p l4 120 5 HI TERN D O 9 06 4 8 crawls pu A crawls 29 Yl 11C yr uu 2 28 3C 2 29 3B Ambient temperature 5 8C Wind direction 337 5deg Wind speed 2 5m s 95 01 01 00 30 00 2ftruss 7C KE bed pfpar J step y nwall 0 0 1509 c9 21C 4 20Ce 18C 14 2 30 3A e 1C 2 31 2 bed 1 Idk 1 1dk 1B X 2 32 2 bed 1 1dk M IM 1A 2 33 2 bed 1 1dk 1 1A 1dk Ambient temperature 5 8C Wind direction 337 5deg Wind speed 2 5m s 95 01 01 00 30 00 95 01 01 00 30 00
336. 4 8m s 95 01 01 00 30 00 95 08 01 00 30 00 pfswal bed rs 13C 190 4 3 3 S EE 3 9 10 2 zz rdi 39 A 8 E bea mf o um 2n _ 148 A d Ed p Ed i ldk fd s 28C il 2 ed ve 2 44 1C 1 8 m3 h MTM EIE 1 B amp B SF6 2 RN NS HCHO CO2 1000ppm Ambient temperature 5 5C Wind direction 250 8deg Wind speed 3m s Ambient temperature 26 5C Wind direction 181 6deg Wind speed 4 8m s 95 01 01 00 30 00 95 08 01 00 30 00 pal T V EE bed step 3 9 27C Fia Ge2e 27C u e 6 E 8n ind 41 russ 9 bea amf E E A ai EE E r7 RTE aef Idk o 1 3 5 1 EZTOT i ME pus 2 45 3C 1 8 m3 h 3
337. 45 2 X 3 145 3 145 c 3 145 0 21 Microsoft Excel xk FE CE RTV FAO SRO D 9 HD Adobe PDF ED IDSuHSlT kt ego c amp rAHid OU D Lom a s eco jg wp a e qu 8 78 Een 1 650 a n msm REX 0 0 7 L2 eR RD TON 7501E 02 1 799 1m 9139E 03 1902 j 110 8096 130 9095 a n 1m R D 3 90 R D 3 135 10 8n26 30 096 38 ea 37 2l e i 18 a n A 10HE 03 1940 B o 1110E 03 1921 D 1135E 03 1919 E 1097E 03 1932 AP a GRO
338. 70 7 60 6 50 9 40 4 30 3 20 2 10 1 0 0 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 2 54 2 55 Sr 1 M Hayashi H Yamada PERFORMANCE OF A PASSIVE VENTILATION SYSTEM USING BEAM SPACE AS A FRESH AIR SUPPLY CHAMBER THE INTERNATIONAL CONFERENCE ON INDOOR AIR QUALITY AND CLIMATE VOL 1 Proc int conf INDOOR AIR 96 859 864 1996 6 2 dnx UE 50 4 47 54 1998 2 3 H Yamada S Tanabe M Hayashi A FEASIBILITY STUDY ON PREDICTION METHOD ON FOLMALDEHYDE CONCENTRATION ON HOUSES SECOND INTERNATIONAL CONFERENCE ON HUMAN ENVIRONMENT Proc int conf ICHES 98 643 646 1998 4 M Hayashi M Enai Y Hirokawa SIMULATION OF VENTILATION AND INDOOR AIR QUALITY IN HOUSES USING AVERAGE JAPANESE DAILY SCHEDULE Proc int conf Building Simulation 99 Vol 2 815 822 1999 9 5 dE UE
339. 90 Mode1 D 135 Model E C E GE C C E 90 6 E AZ 3 140 3 141 1 Model A B C 19 21
340. ALEE E anaE E j m PE QUEUE AIRA ENBEAGER GTI MOS 108 os C09 Th M09 EN X Of x A E R 21 x WARE AA Me am AHA 45 10023 108 102 0 X 22 HAAA 149235 H 101 068 0 X 23 Eu ABE HA MvXEGEERR 74 185251 14 078 140 076 97 0 0 24 BAR HAE MATAR RH 00 252251 14 057 151 060 105 0 0 0 696 1719 2468 128 0 571 125 0 801 126 056 974 123 0 74 98 4 6 22 04 3 6 5 24 X HERORER RAITRE HORA CI JP US REB ERR X USO NE OBREDE AREIS MX eL kaL RU SX DCN SEU DORT 143 3 5 1 04 1 24 05 257 48 0 5
341. C ut CO2 ppm O 3C step CO2 ppm 1500 500 0 1 2 3 4 5 6 7 8 9 10 11 12 3C ldk R22 ppm 8 3C ut R22 ppm 3C bed R22 ppm 3C step R22 ppm 2 1 5 1 0 5 B m m 6 J J Na emu UE 0 A 1 2 3 4 5 6 7 8 9 10 11 12 2 41 3C 3 Ambient temperature 5 5C Wind direction 250 8deg Wind speed 3m s Ambient temperature 26 5C Wind direction 181 6deg Wind speed 4 8m s 95 01 01 00 30 00 95 08 01 00 30 00 2ftruss 6C 4 fswal bed fpart pt Lad 200 18 17C 13C Wa zs crawls 8C crawls 26C 2 42 1C 1 8 m3 h 1 HR m SF6 Us nU NR 4 1 1 ee
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344. Ed dX HW Sp a S NN HW o a HE MS KM M M Sm om Rm X MN On m R m o X MN Oh E Ei BE BR dM m E E B HER 7 M m 522222 SuI Toe iE 9 9 A iE 9 8 JN 25 75 6 Eee p Ho PRE 3 112 W Q a 1 1 Wh m DC 0 16 Wh m AC 0 37 Wh m 57 1 Ws Qs 0 9 f 0 8 f 0 7 0 67 0 5 0 4 0 3 f W Q 0 2 f _ 25 75 AC n 145 0 37 DC n 27 0 16 PRIE 0 0 3 113 1 W Q 242 b 3 3 Wh m DC 0 14 Wh m AC 0 16 Wh m
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346. II 2003 DI1 ADCA 0 2004 DI2 JADCA TUUUSEESPEAUEUH KOA EEN E OAE PS 2005 D13 2003 212 3 25 AIVC Air Infiltration and Ventilation Centre QEA 00s CIBSE Chartered Institution of Building Services Engineers NADCA National Air Duct Cleaners Association VDI Verein Deutscher Ingenieure CEN European Committee for Standardization JSA n Japanese Standard Association 5 JADCA Japanese Air Duct Cleaners Association AIJ Architectural Institute Japan 5 1 3
347. NELLI RN FZ h 229 mE AT K LL gt T 230 5 2 4 1 m h m h A ARBRE 64 1 T ror us 231 2 A KJ A KJ
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351. bliography Ventilation Air Duct Cleaning Office 2000 ae Buildings 00 a Ex F5 j CIBSE I1M26 2000 Hygenic maintenance of office ventilation ductwork 2000 Fo NADCA AVR 2005 Assessment Cleaning and Restoration of HVAC system 2005 E F7 NADCA Itroductionto HVAC system cleaning services 1 1 2005 VDI 6022 Part 1 Hygienic standards for ventilation and air conditioning system F8 1998 Offices and assembly rooms eiE Ek kkk bANN lt lt Fo VDI 6022 Part 2 1999 Hygienic standards for ventilation and air conditioning 1999 Sems Standards for hygiene training lt VN lt lt lt lt F10 EN 779 2002 Particulate air filters for general ventilation Determination of tha 2002 filtration performance JIS B 9908 DI 2001 s D2 JADCA 989 E D3 JADCA i990 2 D4 IJADCA ssl DS JADCA D2 D6 JADCA MUI E E A SEAT UA 595 e D7 JADCA A A VD s 000 D8 JADCA 14 2000 D9 IJADCA 000 mU DI0 JADCA
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