|
|
- ひでより かいて
- 5 years ago
- Views:
Transcription
1
2
3 iii
4 v
5 vi
6 S 1
7 H 2S ppb 1.1 2
8 ppm ppm ppm 1.1 C x,y,z x,y,z m 3 /m 3 x,y,z m Q m 3 N/s u m/s He m 3
9 σ y σ z m m 3 N/s L/min 2 1 m/s Pasquill x m Pasquill-Gifford 0 10 m y = 0 z = 1.5 m x m C m 3 /m 3 Q He 0 5 m He C He 10 m 0 5 m C 1/5 1/10 He Q = m 3 N/s x C He 1 m x C m 3 N/s m m 100,000 10,000,000 10, ppm 10, Q He ppm 200 ppm 10 1,000 ppm 1.4 4
10 200 ppm 1,000 ppm 5
11 HP 4H 2 SO 2-4 H + HS - 4H 2O CH 3COOH SO 2-4 CO 2 HS - HCO - 3 4H 2O 2CH 3C 2H 4COOH SO 2-4 H + 4CH 3COOH HS - 16S rrna
12 ph mv 7
13 S mg/l 145 1,450 mg/l 820 1,500 mg/l mm 5 1 mm 1 mm 1/10 20 mg/l mg/l 40 mg/l 50 mg/l mg/l 1,500 2,000 mg/l ,700 mg/l Townsend mg/l 950 1,100 mg/l SO 2-4 8
14 2.2.2 Weber m mg/l Jang m ,000 mg/l mg/l mg/l mg/l 5 20 mg/l 1,600 g/t 13 1,400 ppm /ml /ml 6 87 ppm 5 9
15 /ml /ml 2 O 2800 ppm /ml /ml ,000 ppm 10 4 /ml /ml 210 2,100 MPN/mL ,400 MPN/mL MPN/g 13 MPN/g 1 MPN/g 79 MPN/g 33 MPN/g 13 MPN/g TOC 200 mg/l 8 TOC 2,000 mg/l BOD mg/l 100 mg/l BOD mg/l 2 47 mg/l BOD mg/l TOC
16 ,000 3,000 mg/l
17 ph6 6 ph ph mg 200 ml 50 1,000 ppm 10,000 ppm ppm 1,000 ppm 30 ph ORP 8 ORP 350 mv mv Jang mv ORP mv ORP S 2-12
18 H 2S S 13
19 S S mol/l mol/l m 10 m 2.5 m 63.7 t ppm 50 ppm 1,500 mg/l Townsend 23 lime-amended sand coarse concrete fine concrete 22 TOC BOD 24 14
20 1,000 ppm 20 4 TOC 30 mg/l 1,000 ppm Townsend 25 ph ph ph ph 28 ph Reinhart m 1, S 1 TOC 30 mg/l 1,000 ppm 15
21
22 BOD 30 mg/l 30 mg/l ph mm 5 mm 17
23
24 m GFP GA mm ph ml 50 ml 1 ml Ar
25 MILLIPORE 0.45 m, White Nylon, HNWP 47 mm Run SRB 5 10 Run1-5 RunA-B A B 1 10 Run Run2-10 Run Run
26 Run2-3 5 Run Run Run Run Run1-5 Run Run Run Run Run2-3 Run ,000 ppm Run2-3 Run ppm Run3-5 5,100 ppm Run ,000 ppm 21
27 DOC DOC 100 ml 50 ml 1 ml ORP 20 BOD 350 mg/l DOC 170 mg/l
28 4.2.6 Run2-10 Run2-10 Run1-10 Run3-10 CO 2 DOC mg/l DOC 200 mg/l DOC DOC DOC 700 1,300 mg/l 1,000 ppm DOC 1,000 ppm DOC 350 mg/l DOC 23
29 170 mg/l DOC ppm Run DOC 600 mg/l Run3-10 Run1-5 DOC 400 mg/l H 2S SRB 1 H 2S 10 H 2S SRB 1 SRB 0-10 Run1-5 Run2-5 H 2S 0.1 ppm 10 1 ppm H 2S H 2S SRB H 2S ppm SRB SRB/mL ppm SRB SRB/mL 16 H 2S 100 1,000 ppm SRB /ml 1 3 H 2S H 2S 10 T n T n+1 H 2S S 2- H 2S T n T n+1 SRB 10 H 2S r H2S nmol-s/ -SRB H 2S SO 2-4 H 2S r H2S RUN nmol-s/ -SRB T n SBR T n+1 1 CFU/mL ORP mv r H2S nmol-s/ -SRB 1 SRB 11 L H 2S
30 ORP H 2S RUN2 4 T n H 2S H 2S SBR r H2S nmol-s/ - SRB H 2S nmol-s/ -SRB nmol-s/ -SRB DOC mg/l 1000 mg/l 10 ORP
31 M K T 2 mm 5 mm 1 SRB K1 T1 T ph 26
32
33
34 m GFP TOC SO 2-4 Ca 2+ SO 2-4 Ca 2+ 29
35 TOC 2 TOC TOC TOC TOC TOC TOC T-1 T-3 K TOC SO 2-4 Ca TOC 30
36 4.3.6 TOC TOC TOC SO 2-4 Ca TOC TOC 3 TOC TOC K5 T mol/l m GFP 100 ml 50 ml 1 ml
37 K5 3 5 K mol/l mol/l ppm M-1 K-1 K-2 T-1 T-3 T mol/l 0.005mol/L 32
38 4.3.2 K mgfp 100 ml 50 ml ml 35 K1 T3 T
39 4.3.3 T
40 N M K-1 T-3 T-4 K
41 K-1 K-2 ppm T ppm ppm 4 9 K-1 K-2 T-1 T-3 T T M-1 M iodine blue color- 36
42 ing M
43
44 cm 1.4 m 3 1 LM1 2 LM2 LM1 LM2 LM1 LM2 LM2 LM1 50 cm 1.5 m 90 cm 50 cm M M G0 G6 39
45 LM1 LM2 1 LM1 M M cm M M LM1 23 LM2 8 40
46 4.4.5 M LM1 66 LM CO CO 2 41
47
48
49
50 4.4.7 LM LM
51 LM LM CO 2 46
52 CO O O 2 47
53 N N CH 4 48
54 CH H 2S H 2S 49
55 G5 CO G G5 1 2 CO G4 1 10,000ppm 2 5,000ppm 1 2 G CO 2 CH 4 1 CO 2 CH 4 ORP mv ms/m BOD 1 BOD ph 1 50
56 ph IC IC 2 51
57
58 mg/l TOC 1 2 TOC IC mg/l mg/l IC Na mg/l 1 17 g 28 g 70 g 150 g 2 13 g 12 g 77 g 150 g 7 29 IC ph
59
60 ph IC 55
61 Ca Mg SO
62 Cl G4 ph cm cm 2 20 cm cm 2 20 cm ,000 ppm 1,000 mg/l 2 5,000 ppm ppm 57
63 CO 2 CH CO CH ph 7 ph 5 6 ph ph CO 2 CH 4 H 2S 0.1 ppm vol ml/m 2 /h H 2S CO LM1 2.0 LM1 ml/m 2 /h CH 4 LM1 LM2 181 LM1 227 LM2 ml/m 2 /h CO 2 CH 4 G1 G5 LM CO CH H 2S LM2 6.8 CO CH H 2S CO 2 CH CH BOD
64 1 BOD 2 BOD /28 7/30 8/1 8/5 8/16 8/22 9/
65 4.5.1 ppm ppm 0 + 8/22 + 9/2 8/22 + 9/ ppm
66 ,000 ppm 5,000 ppm 61
67
68
69 3 1 m 2 BOD TOC 64
70 0 5 50,000 ppm 10 FS 65
71 ph CHN 66
72 67
73 S 2- S
74 2000 (2) pp No.4 p Vol.56 No.255 pp U.S.EPA Construction and Demolition Waste Landfills draft February Townsend, T. G., Jang, Y., Thurn, L. G.: Simulation of construction and demolition waste leachate. J. Environ. Eng., pp Weber, W. J., Jang, Y.-C., Townsend, T. G., Laux, S.: Leachate from Land Disposed Residential Construction Waste, J. Environ. Eng., pp Jang, Y.-C., Townsend, T. G.: Effect of Waste Depth on Leachate Quality from Laboratory Construction and Demolition Debris Landfills, Environ. Eng. Sci., 20 3 pp pp pp Municipal Solid and Biomedical Waste Branch, Environmental Protection Division, B. C. Environment: A Strategic Analysis of Waste Gypsum Wallboard Reprocessing in British Columbia. July No.12 pp pp pp Hardy Associates 1978 Ltd.:Control of Sulphate Production in Drywall Land-fill Operations 1984 Gypsum Subcommitee of the Lower Mainland Refuse Project No.8 pp Reinhart, D., Townsend, T.: Control of Odors from Construction and Demolition Debris Landfills, Technical Awareness Group Meeting 1 slides CDOdor/TAG1.htm 24 69
75 14 5 pp Hardy Associates 1978 Ltd. Control of Sulphate Production in Drywall Landfill Operations, Report to Gypsum Subcommitee of the Lower Mainland Refuse Project pp Pt.2 pp Pt.2 pp Reinhart, D., Townsend, T.: Control of Odors from Construction and Demolition Debris Landfills, Quarterly Progress Report Sept 1, Nov 30, CDOdor/CDOdor_Qtr_rep_Sep03_Nov03.pdf 30 Reinhart, D., Townsend, T.: Control of Odors from Construction and Demolition Debris Landfills, Quarterly Progress Report Dec Feb CDOdor/CDOdor_Qtr_rep_Dec03_Feb04.pdf pp
76 ( )
77 1.1 Q 1.2 He DOC DOC TOC TOC LM LM LM LM CO CO O O N N CH CH H 2S H 2S ph ph IC IC
78 ph IC Ca 2+ Mg 2+ SO 2 4 Cl ppm ppm
79 Vol.14 No.5 pp Yusaku Ono, Takashi Ikeguchi: A fetal accident caused by H 2S generated at waste landfill sites, EPCOWM 2002, B.Inanc Yuzo Inoue, Hiroshi Asakura, B. Inanc, T. Ishigaki, M. Yamada: Formation of Strong Hydrogen Sulfide from Gypsum Board and its Countermeasures, The Third Intercontinental Landfill Research Symposium,
80 RESEARCH REPORT FROM THE NATIONAL INSTITUTE FOR ENVIRONMENTAL STUDIES, JAPAN No.188 R Published by the National Institute for Environmental Studies 16-2 Onogawa, Tsukuba, Ibaraki Japan March 2005
81
<4D F736F F D B BA908593B98AC782AB82E593E082CC88C091538AC7979D82C98AD682B782E992868AD495F18D908F912E646F63>
12 62 1800 14 3 11 14 4 14 4 30 ... 1... 1... 1... 2... 5... 6... 7... 10... 13... 18... 19 21 22 24 27 28 31 32 33... 34... 35... 37 2 1,650mm () H=2,500W=2,000 460m 750m 500m 42.1m 1.15m () 100% 80%
More information第4次酸性雨全国調査報告書(平成16年度) -(Ⅱ)付表編-
1.12.24 P. 5.4.3.1 NO NOP. 5.4.3.2P. 5.4.3.3 P. 5.4.3.4 P. 2.18 2.19 P. 2.20 P. 2.21 P. P. 5.5.2.11 SOA P. 5.5.2.12 NO B A B 1.1 16 mm FRS Vol. 31 42006 1.2 ph 16 FRS ms/m FRS 1.3 16 Vol. 31 42006 μmol/l
More informationAnalysis of Hypoxia Dynamics Using Pelagic and Benthic Biogeochemical Model: Focus on the Formation and Release of Hydrogen Sulfide Masayasu IRIE, Shu
Analysis of Hypoxia Dynamics Using Pelagic and Benthic Biogeochemical Model: Focus on the Formation and Release of Hydrogen Sulfide Masayasu IRIE, Shuzo NISHIDA, Kyosuke TERANAKA, Yohei TSUJI Mitsunari
More information京都盆地の地下水
28 1 29 8km 20km [1] [2-4] 1993 [5] [1] 1980 22(4) pp.8-22 [2] 1929 6 pp.568-588 [3] 1984 No.23 pp.1-100 [4] 1992 45(1) pp.54-62 [5] 1933 8(9) pp.417-430 20 km 8km 0.7 km 125 km 3 25 m 300 700 m 56 44
More informationH22応用物理化学演習1_濃度.ppt
1 2 4/12 4/19 4/27 5/10 5/17 5/24 5/31 (20 ) (20 ) (10 ) (50 ) 3 (mole fraction) X = (mol) (mol) i n 1, n 2,, n x N i X i = n i = n i n 1 + n 2 + + n x N 4 (molarity, M) 1 dm 3 ( L) (mol) (mol/l) = 1 L
More information25 ... 1... 1... 9... 9... 17... 21... 22... 22... 22... 22... 23... 25... 26... 27... 27... 27... 61... 61... 61... 64... 64... 64... 65... 65... 65... 66... 66... 67... 70 1.1.1 1.1.2 1.1.3 1.1.4 1.1.5
More information20 57
56 20 57 58 59 12 60 ph 61 62 CCA 63 64 ( 1) 700 7.5 86% 54 17 71 2) 700 6.8 86% 50 15 65 3) 600 700 5.7 84% 36 14 50 550 650 4.2 80% 21 6 27 40 500 3.6 78% 16 7 23 3.6 78% 16 7 23 400 700 4.0 78% 18 7
More information2(2) / (1) (1) -2
1(1) -1 2(2) / (1) (1) -2 3(2) (2) (3) (4) (5) -3 4(1) 1 1-4 5(2) 2-1 -5 6(1) (1) (1) (2) (2) -6 7(2) (1) -7 8-8 9-9 10-10 11 (1) -11 12(1) -12 13(2) -13 14(3) -14 15-15 BOD CH4 COD DO EIA GDP GRP JICA
More information近畿中国四国農業研究センター研究報告 第7号
230 C B A D E 50m 558 0 1km (mg L 1 ) T N NO 2 3 N NH 4 N 2.0 0 (a) 2001 1.5 6 20 21 5 1.0 0.5 0.0 2.0 1.5 1.0 0.5 0.0 14:00 17:00 (b) 2001 7 3 4 20:00 23:00 2:00 (h) 5:00 8:00 11:00 10 0 5 10 15
More information土壌の観察・実験テキスト −土壌を調べよう!−
( ) 2006 7 20 i 21 1962 1969 1987 1992 2005 65 1972 1977 1997 1977 1998 1982 1998 2002 2004 2005 SPP 1999 ii 1 g cm m 6378km ( ) 4.2, 4.3 5.1 7.1 8.1 4.1 7.3, 7.4 7.1 1 2 7.1 8.2 2 5 6 1, 2 2.3 4.2, 4.3
More information2 2000 3 31 209 5.6.2 2000 3 31 209211 52
10 45m 700900mm 400600mm 1m 3060 12m 11.5cm 40cm 900mm 2000 5 71 2.4-1 2000 3 31 237245 2000 5 7172 51 2 2000 3 31 209 5.6.2 2000 3 31 209211 52 6 1 1 900mm 1 2 3 53 2000 3 31 234 5.6.34 2000 3 31 232234
More information12-7 12-7 12-7 12-7 12-8 12-10 12-10 12-10 12-11 12-12 12-12 12-14 12-15 12-17 12-18 10 12-19 12-20 12-20 12-21 12-22 12-22 12-23 12-25 12-26 12-26 12-29 12-30 12-30 12-31 12-33 12-34 12-3 12-35 12-36
More informationCSR報告書2005 (和文)
A 250 200 150 100 50 0 25,000 20,000 15,000 10,000 5,000 0 1,000 800 600 400 200 0 168 14 14 27 54 60 2000 16,975 1,314 1,207 8,977 5,477 2000 698 112 115 292 178 2000 223 24 28
More informationブック 1.indb
21 1211 27 11 27 12 16 20 11 27 10 20 28 29 30 12 10 11 12 30 13 30 14 10 30 15 11 16 12 17 13 18 14 19 15 20 16 10 21 11 27 106 21 107 108 109 110 21 111 28 112 28 10 113 29 11 11421 30 12 11521 32 13
More information温泉の化学 1
H O 1,003 516 149 124 2,237 1974 90 110 1km 2,400 ( 100 Mg 200 (98 ) 43,665 mg 38,695 mg 19,000 mg 2000 2000 Na-Ca-Cl 806 1970 1989 10 1991 4 ph 1 981 10,000 1993... (^^; (SO_4^{2-}) " " 1973-1987 1970
More information13 3 21 11 60 11 3 10 13 3 21 11 3 10 38 11 7 23 1 11 11 12 39 12 2 29 2 12 3 15 40 12 8 30 3 12 11 2 41 13 2 20 4 13 3 15 42 13 3 15 10 14 16 1900 1945 1985 ( ) ( ) 1 2 6 2 Thiobacillus SO 2-4 H 2 S
More information73-5 大友
373 73 5 20 9 373 377 Journal of the Japanese Association for Petroleum Technology Vol. 73, No. 5 Sept., 2008 pp. 373 377 Lecture HSQE * ** Received July 31, 2008 accepted September 11, 2008 Implementation
More information第2章 有機物汚濁指標の概要と問題点
3 COD Mn 3-1 3-1-1 OC 2 3 OC Oxygen Consumed 3-1 13 DO BOD OC 1 1970 OC KMnO 4 2 K 2 Cr 2 O 7 2 OC ph OC 50 OC JIS K0102 100 30 KMnO 4 3-1 COD 17 3-1 1973 1 KMnO 4 KMnO 4 COD Mn COD Mn COD COD Mn Cr COD
More informationコロイド化学と界面化学
x 25 1 kg 1 kg = 1 l mmol dm -3 ----- 1000 mg CO 2 -------------------------------------250 mg Li + --------------------------------1 mg Sr 2+ -------------------- 10
More information2 (1) (2) SCI 2 SCI 2 24 2 12 2
2004 (1) (2) (2) (3) (1) 1 (2) (3) 2 (1) (2) SCI 2 SCI 2 24 2 12 2 100% / 16 2002 2003 http://lin.lin.go.jp/alic/month/dome/1997/nov/chousa.htm (05 612 1315 1618 1922 2329 3039 4049 5059 60 ) =10 b g 1
More information橡H8フィリピン報告書_日本語) PDF
1 2 7,000 7,000 3 1986 Execut ive Order 192 Depart ment of Environment and Natural Resources Department of Natural Resources Ministry of House Settlements 8 4 8 6 4 35,000 5,000 30,000 7,000 192 Environmental
More information橡長沼事件関係資料_041002_.PDF
5.......... H393.1 Na 2 ........ 3 4 NO.1 2 5 7 8 12 14 17 21 24 28 30 37 39 40 42 42 43 50 58 1968.7 5 4 5 6 1969.4 13 1969.12.4 725 1973.10 8.6.4 1968.7 1968.6.4 1968.9 1968.11 1969.3.6 1969.3.6 1969.7.7
More information-- H18) -3-4mL=771m) 5 14-10.0mL=185m) 55-7.5mL=260m) 49 1t(-9m)L=165m) 39-5mL=160m) 10-6.0mL=105m) 41-5.5mL=180m) 41 16 14 12 10 8 6 4 2 0 3 7 15 13 6 11 5-3mL=286m) 38 L=1,390m) 25 L=1,390m) 25 -1%
More information10-7 cm/ 50cm 10-6 cm/ 2,4-D 2 ph
10-7 cm/ 50cm 10-6 cm/ 2,4-D 2 ph Cd 2+ Ca 2+ - Cr(OH) 4 ph ph ph ph 6 CrO 2-4 AsO 3-4 ph 9 Cd 2+ ph 6 ph 9 ph 6 9 ph B(OH) - 4 ph B(OH) 3 ph ph B(OH) - 4 ph soil organic matter ph ph ph ph 2,4-D ph 2,4-D
More information独身女性の生命保険加入実態
kuga@nli-research.co.jp 1 04 NLI Research Institute REPORT February 2011 NLI Research Institute REPORT February 2011 05 2 06 NLI Research Institute REPORT February 2011 NLI Research Institute REPORT February
More information2
1 3 11 21 2 3 28 42 33 12 31 11 4 21 46.5 30.0vol 30 36 16 DXNs 46 19 B 42 22 5 0.44 10 15 20 20 1.5 1.5 0.1 0.37 6 4.5 1.7 16 1.5 1.5 4.5 1.5 7 3.6 4.4 12 8 1.5 9 46 19 19 10 500ml 11 33 3.6 3.9 12 2.1
More information1 3 2 4 1983 2 1979 04 1 03 GDP 9.1% 1 GDP 1,000 04 3 10 04 01 12 WTO WTO 4 3 3 1979 1973 1974 1978 1978 11 1979 1982 1982 1984 1988 1989 1989 1998 SEPA 5 1979 1989 3 1,000 9 SEPA 10 1982 6 5 5 6 1993
More informationDocuPrint C5450 ユーザーズガイド
1 2 3 4 5 6 7 8 1 10 1 11 1 12 1 13 1 14 1 15 1 16 17 1 1 18 1 19 1 20 1 21 1 22 1 23 1 24 1 25 1 26 27 1 1 28 1 29 1 30 1 31 1 2 12 13 3 2 10 11 4 9 8 7 6 5 34 24 23 14 15 22 21 20 16 19 18 17 2 35
More information筑波大学第一学群自然学類 水文学野外実験B実施計画
B 2004 11 24 29 B(C44 0803) (02AA251) 2004 11 26 11 29 2004 11 24 11 29 3 1 M2 M2 B4B4 M2M2 M2M1 M1B4 11/2427 () 11/2426 869-0562 4205-3 / Tel: 0964-42-3111 / Fax: 0964-42-3200 3990 840 530 1200 0.01 km
More information<362D985F95B62D97E996D88F47986190E690B62D936390A391A5975990E690B62E706466>
No.50 pp.101 111, 2014 Komazawa Journal of Geography Origin and Geochemistry of a Flowing Confined Groundwater at the Northern Foot of Mt. Iwate, Northeast Japan SUZUKI Hidekazu and TASE Norio Ca-HCO 3
More information16 5 14 12 1 15 3 6 16 5 2 3 16 3 1 11 1.1 11 1.2 12 2 21 2.1 21 2.2 26 2.3 211 2.4 226 3 31 3.1 31 3.1.1 33 3.1.2 39 3.2 311 3.3 313 3.4 315 4 41 4.1 41 4.2 42 4.3 43 4.3.1 44 4.3.2 434 4.3.3 440 4.3.4
More informationuntitled
2 1. 1.1 1 1.2 2 1.3 3 2. 2.1 4 2.2 5 2.3 2610 6 2.4 477 7 2.5 51917 8 2.6 9 2.7 10 2.8 11 3. 3.1 12 3.2 13 4. 4.1 14 5. 5.1 15 5.2 16 6. 6.1 17 1.1 1. 17 72900 39400 2 26.5km 7.9km 2.0km 1 1.2 1. 2 1.3
More informationH22環境地球化学4_化学平衡III_ ppt
1 2 3 2009年度 環境地球化学 大河内 温度上昇による炭酸水の発泡 気泡 温度が高くなると 溶けきれなくなった 二酸化炭素が気泡として出てくる 4 2009年度 環境地球化学 圧力上昇による炭酸水の発泡 栓を開けると 瓶の中の圧力が急激に 小さくなるので 発泡する 大河内 5 CO 2 K H CO 2 H 2 O K H + 1 HCO 3- K 2 H + CO 3 2- (M) [CO
More informationケインズ『お金の改革論』山形浩生訳 Keynes, A Tract on Monetary Reform, 1923, Japanese translation Hiroo Yamagata 2015
A Tract on Monetary Reform *1 * 2 2014 6 17 *1 *2 c 2014 4.0 (http:// creativecommons.org/licenses/by/4.0/) i J M 1923 10 iii 1 1 1914 22 19 1 13 9 1.1 1914 1920 1920 2 1 1.1 1913 (1) (2) (3) 1913 100
More information「諸雑公文書」整理の中間報告
30 10 3 from to 10 from to ( ) ( ) 20 20 20 20 20 35 8 39 11 41 10 41 9 41 7 43 13 41 11 42 7 42 11 41 7 42 10 4 4 8 4 30 10 ( ) ( ) 17 23 5 11 5 8 8 11 11 13 14 15 16 17 121 767 1,225 2.9 18.7 29.8 3.9
More information() in by NPO 26
埼 環 協 ニュース 通 巻 227 号 (2013 年 9 月 号 ) 一 般 社 団 法 人 埼 玉 県 環 境 計 量 協 議 会 General incorporated association Saitama-Prefecture Environmental Measurement Association 略 称 SEMA URL http://www.saikankyo.jp () in
More information0.45m1.00m 1.00m 1.00m 0.33m 0.33m 0.33m 0.45m 1.00m 2
24 11 10 24 12 10 30 1 0.45m1.00m 1.00m 1.00m 0.33m 0.33m 0.33m 0.45m 1.00m 2 23% 29% 71% 67% 6% 4% n=1525 n=1137 6% +6% -4% -2% 21% 30% 5% 35% 6% 6% 11% 40% 37% 36 172 166 371 213 226 177 54 382 704 216
More information10 117 5 1 121841 4 15 12 7 27 12 6 31856 8 21 1983-2 - 321899 12 21656 2 45 9 2 131816 4 91812 11 20 1887 461971 11 3 2 161703 11 13 98 3 16201700-3 - 2 35 6 7 8 9 12 13 12 481973 12 2 571982 161703 11
More informationTheRecord.indd
July 2015 The Record vol.668 Contents 5/19 6/4 6/5 THE RECORD 2015-07 2 focus 3 THE RECORD 2015 06 THE RECORD 2015 06 4 focus 5 THE RECORD 2015 07 6 THE RECORD 2015 07 01 02 03 7 THE RECORD 2015 07 04
More information% 1% SEM-EDX - X Si Ca SEM-EDX SIMS ppm % M M T 100 % 100 % Ba 1 % 91 % 9 % 9 % 1 % 87 % 13 % 13 % 1 % 64 % 36 % 36 % 1 % 34 46
Review on Hair Analysis in the Wakayama Arsenic Case Jun KAWAI Department of Materials Science and Engineering, Kyoto University Sakyo-ku, Kyoto 606-8501, Japan Received 6 December 2014, Revised 29 December
More informationMicrosoft Word - 目次注意事項2.doc
I II 2009 1. 2. 12 50 3. 1. 2. 3 ( 0.1g, 0.01g, 0.001g ) 3. 4. 1. 2. ()A4 3. 000005 19 5 11 () 19 5 15 () EDTA " # $ 1000 500 =... mol/l Web 1) p.159 2) 1987pp.14-15 3) 1989pp.58-60 4) http://www.chem.zenkyo.h.kyoto-u.ac.jp/operation/
More information2 Zn Zn + MnO 2 () 2 O 2 2 H2 O + O 2 O 2 MnO 2 2 KClO 3 2 KCl + 3 O 2 O 3 or 3 O 2 2 O 3 N 2 () NH 4 NO 2 2 O + N 2 ( ) MnO HCl Mn O + CaCl(ClO
1 [1]. Zn + 2 H + Zn 2+,. K Ca Na Mg Al Zn Fe Ni Sn Pb H Cu Hg Ag Pt Au H (H + ),,. [2] ( ) ( ) CO 2, S, SO 2, NH 3 () + () () + () FeS Fe S ( ) + ( ) ( ) + ( ) 2 NH 4 Cl + Ca(OH) 2 Ca O + 2 NH 3,.,,.,,.,.
More information2010 1 1 7 2 16 2 2 06in 3 3 錆 錆 06in 4 4 0.1 5 5 HCl Cl NaOH H Cl O 2 H H 2 O NaCl Na OH H 2 O NaCl 2010 6 6 ph3.0 30 mg/l 30 1 O-157 H7 2010 7 7 100 Cl 80 60 40 20 HClO ClO CL ph 10 100,000ppm 12 01
More information8 1. 2. 3. 4. 5. 6. 7. 8. 1... 1 1.1.... 1 1.1.1.... 1 1.1.2.... 6 1.2.... 8 1.2.1.... 8 1.2.2....11 1.2.3.... 12 1.2.4.... 12 1.2.5.... 12 1.2.6.... 13 1.2.7.... 14 1.3.... 15 1.3.1.... 15 1.3.2....
More information0.01mg/ ç 0.01 mg/ ç 0.01 mg/ ç 0.01 mg/ ç 0.05 mg/ ç 0.05 mg/ ç 0.01 mg/ ç 0.01 mg/ ç 0.0005mg/ ç 0.0005mg/ ç 0.02 mg/ ç 0.02 mg/ ç 0.002 mg/ ç 0.002 mg/ ç 0.004 mg/ ç 0.004 mg/ ç 0.02 mg/ ç 0.02 mg/
More informationAgilent AA ICP ICP-MS ICP-MS AA 55B AA LCD AA PC PC 240 AA / / AA 240FS/280FS AA AA FS 240Z/280Z AA GFAA AA Duo 1 PC AA 2 280FS AA
Agilent Agilent AA 195750 ICP ICP-MS ICP-MS AA 55B AA LCD AA PC PC 240 AA / / AA 240FS/280FS AA AA FS 240Z/280Z AA GFAA AA Duo 1 PC AA 2 280FS AA 1938 HP 1965 HP 1976 GC/MS HP 5992A 1983 GC GC HP 5890A
More information国土技術政策総合研究所 研究資料
TECHNICAL NOTE of National Institute for Land and Infrastructure Management No.141 December 2003 Calculation Base of Motor Vehicle Emission Factors Road Environment Division NAMIKAWA Yoshiharu. TAKAI Yoshichika
More informationLAGUNA LAGUNA 8 p Saline wedge at River Gonokawa, Shimane Pref., Japan Saline water intrusion at estuary r
LAGUNA8 67 78 2001 3 LAGUNA 8 p.67 78 2001 1 1 2 3 4 5 6 7 8 Saline wedge at River Gonokawa, Shimane Pref., Japan Saline water intrusion at estuary river and its relation to the underground water Observation
More information16 17 3 1.... 4 1.1.... 4 1.2.... 4 1.3.... 5 2.... 7 2.1.... 7 2.1.1.... 8 2.1.2.... 8 2.1.3.... 12 2.1.4.... 14 2.1.5.... 25 2.1.6.... 26 2.2.... 28 2.2.1.... 29 2.2.2..30 2.3.3.... 33 2.2.4.... 35 2.2.5....
More informationhttp://keirin.jp ...1 1....2 1.1...2 1.1.1...2 1.1.2...4 1.2...5 1.2.1...6 1.2.2...7 1.3...11 1.3.1...11 1.3.2...12 2....14 2.1...14 2.2...17 2.2.1 5...17 2.2.2...20 3....27 3.1...27 3.1.1...27 3.1.2...35
More informationUnknown
Journal of Breast and Thyroid Sonology Journal of Breast and Thyroid Sonology Vol.2, No.3 July 2013 Report The 30 th Meeting of Japan Association of Breast and Thyroid Sonology... 1 Department of Organ
More informationまえがき
JAAS0012006 1 -------------------------------------------------------------------------------------------------------- 1 2 --------------------------------------------------------------------------------------------------------
More information1320M/161320M
" # $ %! θθ v m g y v θ O v α x! O x y x α x y y " v # v sinα $ & v cosα ' v cosα v sinα ( v cosα % v sinα " g # gsinθ $ g sinθ ' g ( gsinθ ) g sinθ % gcosθ & g cosθ * gcosθ! g cosθ xy y L v g x xy L α
More information14 12 10 8 6 4 2 0 1 2 3 4 5 6 7 8 9 10 11 12 20 0 0 0 0 0 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 0 0
More information356 Nippon Shokuhin Kagaku Kogaku Kaishi Vol. /., No.1, -/0-0+ (,**1) 44 For Quality Control and Quality Assurance in Food Analysis Akemi Yasui Analyt
356 Nippon Shokuhin Kagaku Kogaku Kaishi Vol. /., No.1, -/0-0 (,**1) 44 For Quality Control and Quality Assurance in Food Analysis Akemi Yasui Analytical Science Division, National Food Research Institute,
More informationContents ph
perfection Guidebook perfection Comb Ag/S Contents 1. 1 2. 2 3. 5 5 7 8 9 11 14 4. 16 18 18 22 25 31 33 37 37 41 43 5. 47 47 48 48 49 ph 50 50 51. 6. 53 55 7. 59 8. 61 Introduction 1. / ISE / Ag 2 S /
More informationDegradation Mechanism of Ethylene-propylene-diene Terpolymer by Ozone in Aqueous Solution Satoshi MIWA 1 *, 2, Takako KIKUCHI 1, 2, Yoshito OHTAKE 1 a
Degradation Mechanism of Ethylene-propylene-diene Terpolymer by zone in Aqueous Solution Satoshi MIWA 1, 2, Takako KIKUCHI 1, 2, Yoshito TAKE 1 and Keiji TANAKA 2 ( 1 Chemicals Evaluation and Research
More informationResearch 2 Vol.81, No.22013
2 5 8 12 4 16 14,15 15 17 17 18 19 20 21 22 22 23 24 26 7 11 14 25 29 30 31 27 27 28 32 16 29 31 1 Research 2 Vol.81, No.22013 Vol.81, No.22013 3 P r o d u c t s 4 Vol.81, No.22013 Research Vol.81, No.22013
More information1QX
2008 Environment Report by Daiki Aluminium Industry Co., Ltd. 1 C O N T E N T S 1 3 5 6 7 8 9 11 12 13 17 19 21 22 2 G& 3 G & G Top Message Top Message G & G G4 5 6 7 8 9 T O P I C S 10 T O P I C S 11
More informationRAA-05(201604)MRA対応製品ver6
M R A 対 応 製 品 ISO/IEC 17025 ISO/IEC 17025は 試験所及び校正機関が特定の試験又は 校正を実施する能力があるものとして認定を 受けようとする場合の一般要求事項を規定した国際規格 国際相互承認 MRA Mutual Recognition Arrangement 相互承認協定 とは 試験 検査を実施する試験所 検査機関を認定する国際組織として ILAC 国際試験所認定協力機構
More informationuntitled
1 Contents 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 2 1. 2. 3 3. 1 2 4 4. () () 5 4. 6 5. 7 6. 8 7. 1. 2. ( ) 3. 8 9 1. 1. 2. ( 2. (( ) ) 3. 3. 4. 4. 5. (PMV) ( ) 5. (PMV)( ) 6. 7. 20 1. 2. ( ) 3.
More informationUNEP sustainable consumption sustainable production 1980 rebound effect rebound effect IO-EHA 1 CO 2 rebound effect CO 2 rebound effect
2005 3 Discussion Paper No. 95 UNEP sustainable consumption sustainable production 1980 rebound effect rebound effect IO-EHA 1 CO 2 rebound effect CO 2 rebound effect 2005 3 1 (Environmental Household
More informationPowerPoint プレゼンテーション - ON工業
( ) ( ) 0.02 ms/ ( ) P. 150 130 27.4 13027 176 ) P.8 1. 2011 ( 0.02 ms/ ( ) [] 1810 ⁶, 0.0556μS 2. (TOC) HNBR NJSR NJSR (TOC) 3. HNBR NJSR 4. 2012 ( 1 10 60 3.710 5-157 8.910 5 1.410 6 1.010
More informationuntitled
14.10,, 2 () () () (50cm ) (50cm ) CXP-5,7,10 BOD20mg/L(ppm) (BOD) CXP-5,7 CXP 1. 2. 3. 4. (300 ) 5. :5 7 10 :200L/ BOD :200 /L BOD :20 /L CXP 2 (24 3 ) V=1.5+(n-5)0.4 1 2 :3/5V :2/5V 40% 60% V=1+(n-5)0.2
More information07.報文_及川ら-二校目.indd
8 01 01 4 4 1 5 16 18 6 006 H 18 4 011 H 6 4 1 5 1 5 007 H 19 5 009 1 5 006 007 009 011 9 10 4 000 H 1 4 5 004 H 16 4 004 009 H 1 5 4 4 5 1 4 006 011 1 1 4m 5m 10m 007 1 7 009 009 1 5 10 1 000kg 10a 006
More informationセレンディピティによる 独創的加工技術開発
NACHI TECHNICAL REPORT Machining Vol.12A1 Feb/2007 "A Role of Serendipity in Developing Unique Manufacturing Technologies" Kiyoshi Suzuki Nippon Institute of Technology 1 Abstract 1. 2. NACHI TECHNICAL
More informationPowerPoint プレゼンテーション
ICP-AES, AA ppb - 1% ICP-MS ppt - 100ppm SEM-EDX 0.1% - 100% B - U XRF 0.01% - 100% Na - U EMIA ppm - 100% C, S EMGA EMIA : EMGA ppm - 100% O, N, H Carbon Sulfur Nitrigen Oxygen ISO ISO/TC 17/SC ISO 9556
More information埼環協ニュース第214号
Saitama Prefectural Environmental Measurement Conference URL http://www.saikankyo.jp 1 2 19 . 27 28 13 30 () () COP10 1 NPO NPO NPO NPO NPO DVD DAY NPO NPO NPO NPO NPO 78 NPO NPO NPO NPO DAY DAY DAY
More informationcover_out.ai
7 7.1 7-1-1 2009/10UNDP 2010 4 7-1-1 1 2 3 2010-2020 2021-2035 2036 2050 2050 1 IGCC / / 2 3 LED CCS 4 CCS 2 3 2010 2010 3 JST 129 2011 7.1.1 7-1-2 863 1 350km/h 9600kW 250kW/ 3 1kW/kg 3 2011 1 2013 12
More information2,347 232 01
27 194120331 JAPAN ASIA INVESTMENT CO., LTD. P01 P03 P05 P07 P08 P09 P10 P11 P13 P14 2,347 232 01 02 03 04 05 06 07 08 09 10 11 20,051 5,550 4,796 3,049 88,123 10,750 13,521 30,190 55,162 21,444 5,172
More information橡J0021-1.PDF
1 1950 60 PE PP PVD C PVC FT-lR DS C XRF GC LC 1 HS GC 2 2 1 2 1 GC GC 80 5 3 3 200 2 PVC 2 3 2 2 4 JHS 100 5 10ml GC 5 JHS-100 3 3 1 JHS 100A QP 5000 GC MS 6 1 1 TC-WAX 0.25mm 60m 40 180 5 /min--- 280
More information,977 t 157,977 t mg l mg l BOD 9398 % OH = cm 3 / sec 11 = cm 3 / sec OH = /
1 9625 2219 CAS 75569 1, 2-1, 2- H 2 C CH CH 3 C 3 H 6 O 58.08 1 99 % 1. 2 2, 3-112.13 2, 3 34.23-37 449 2.8-37 % 2 d 0 4 0.859 4 d 20 0.8304 2 2, 4 2.00 = 1 53.33 kpa 400 mmhg18 59.33 kpa 445 mmhg20 5
More information09_organal2
4. (1) (a) I = 1/2 (I = 1/2) I 0 p ( ), n () I = 0 (p + n) I = (1/2, 3/2, 5/2 ) p ( ), n () I = (1, 2, 3 ) (b) (m) (I = 1/2) m = +1/2, 1/2 (I = 1/2) m = +1/2, 1/2 I m = +I, +(I 1), +(I 2) (I 1), I ( )
More information橡96-07.PDF
1 967 2482 CAS 50000 CH 2 O 30.03 2952% 12.5 % 1. 2) -92 2) -19.5 2) 5085 3) 424 3) 7.073.0% 4) 20 d 4 0.815 5) 1.03 ( = 1) 5) 1.33 kpa (10 mmhg) (-88.0) 2) log Pow0.35 ( ) 6) 0.35 ( ) 7) 1) m/z 29 ( 1.0
More informationuntitled
1 2 2.1 2.2 3 3.1 3.2 3.3 4 4.1 4.2 5 5.1 5.2 5.3 5.4 1 2 6 1 100 Szobolcs, I. (1989) 402.5 2005 102 2004-2006 (1) 1% (2) 0.1% (3) 0.01% km 3 / 14km 3 97%3% 0.8% 0.01% 19002000 9 70 % 5000 4000 1.15 0.352.5
More informationuntitled
Visitor Arrivals and Japanese Overseas Travelers 2008 Visitor Arrivals and Japanese Overseas Travelers Visitor Arrivals by Nationality & Purpose of Visit for Apr. 2008provisional figures Visitor Arrivals
More information20 Nippon Shokuhin Kagaku Kogaku Kaishi Vol. /0, No. +,,* -* (,**3) 20 * * Taste of Mentsuyu (a Japanese noodle soup) Depends on the Combination and P
20 Nippon Shokuhin Kagaku Kogaku Kaishi Vol. /0, No. +,,* -* (,**3) 20 * * Taste of Mentsuyu (a Japanese noodle soup) Depends on the Combination and Proportion of Ingredients Akiko Otomi Keywords : taste,
More informationBest Practice ph O2 /
Best Practice ph O2 / 2 / 3 : 3 : ph 5 : TNK-BP ph 7 ph 9 11 DO 11 16 3 25% ph 18 20 22 Publisher / Production Mettler-Toledo AG Process Analytics Im Hackacker 15 CH-8902 Urdorf Switzerland Images Mettler-Toledo
More information後期化学_01_濃度
2011 ( ) 1 4 1 100 g g % * 1 100 g 1 g 1 % * 2 (1 g)/(100 g) = 0.01 = 1 % 100 g 100 g 99 g 100 g 1 g 1 % 2.5 g 50 g (2.5 g)/(50 g) = 0.050 = 5.0 % 100 ml g 1 %(w/w) wt% % %(w/v) % / 2 % SI 2 / % 100 ml
More informationkm2 km2 km2 km2 km2 22 4 H20 H20 H21 H20 (H22) (H22) (H22) L=600m L=430m 1 H14.04.12 () 1.6km 2 H.14.05.31 () 3km 3 4 5 H.15.03.18 () 3km H.15.06.20 () 1.1km H.15.06.30 () 800m 6 H.15.07.18
More informationδδ 1 2 δ δ δ δ μ H 2.1 C 2.5 N 3.0 O 3.5 Cl 3.0 S μ
1961. (Received January 15, 2013) 1) 1. 2. ph 2) 3) 2) 2) 2001 4 6) 7) ph ph ph 1961 1962 1. 2 1 1 δδ 1 2 δ δ δ δ μ 1 1 1 1. H 2.1 C 2.5 N 3.0 O 3.5 Cl 3.0 S 2.5 1 1. μ 1 3. 1 2. 1963 1,4- δ δ 1 3 2 δ
More informationOECD (
2.1.1 1991 3 2002 2 2004 7 2003 1,684 / 316 / 65 / 938 / 302 / 2008 2010 30 2-1 0506.9010 OECD ( 2619.0000 4401.3000 4501.9000 4707.1000 4707.2000 4707.3000 4707.9000 5202.1000 5202.9900 5505.1000 5505.2000
More information1
1 2 3 4-1 4-2 4-3 5 6 7 8 9 10 11 12 13 TOPPAN FORMS CO., LTD. PDM CENTER COLOR CONTROL STRIP 1 2 3 4 5 6 7 0570-01-3500 03-3569-3500 0120-001144 0120-86-0962 03-6385-0962 0120-80-7761 050-3383-1414
More information