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- しげのぶ つまがみ
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14 SPECIFICATION CHARACTERISTICS UNIT Regular Gasoline Premium Gasoline METHOD A Type C Type A Type C Type ABNT ASTM Color - (1) (2) (1) (2) Appearance - (4) (4) (4) (4) Visual (3) Ethyl Anhydrous Alcohol AEAC %vol. 1 max (5) 22 (6) 1 max. (5) 22 (6) NBR
15 Properties Units Limit Standard AEAC AEHC ABNT ASTM (1) Appearance - (2) (2) Visual Color - (3) (3) Visual Total acid (as acetic acid) mg/l D 1613 Electrical conductivity max µs/m D 1125 Density at 20 degree Celsius kg/m max D 4052 (4) Alcohol content INPM 99.3 min (4) ph Sediment by evaporation max (5) mg/100ml Hydrocarbon content max (5) % vol Ethanol content min (6) % vol D 5501 Ion of chloride max (5) mg/kg / D 512 (7) Ion of sulphate max mg/kg / Iron max (8) mg/kg Sodium max mg/kg Cooper max (9) mg/kg
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21 Fuel Characteristics of Korea Apr Gasoline (Maker : SK) Regulation ~ ~ Specific gravity (15/4degC) - Research Octane Number (RON) 92.0~93.9 Reid vapor pressure, max (@37.8degC) kpa 82 70(*1) Distillation Initial boiling point, (IBP) degc - 10%, max (T10) degc 70 50%, max (T50) degc %, max (T90) degc 175 Final boiling point, max (EP) degc 225 Residue, max (RES) vol % 2 Aromatic content, max vol % 50 Benzene content, max vol % 5 1.5(*2) Olefins content, max vol % Phosphorous content, max g/l Lead content, max g/l Sulfur content, max wt. ppm 130 Oxygen content wt. % 1.3~ ~2.3 Copper strip corrosion test, max 50degC, 3hrs 1 Gum existence, max mg/100? 3 Oxidation, min min 480 Water & sediment content, max vol % 0.01 V/L ratio, max (@51degC) 20 (*1) : Jun. 1st ~ Aug. 31st (*2) : Below 1.0 from Jan. 1st, 2005 Government's Standpoint about Alcoholic Fuel - Currently impossible to sell alcoholic or gashol fuel. 21
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VEHICLE DEMAND AND ENVIRONMENTAL ISSUES JARI-INDONESIA ROUNDTABLE 2008 BOROBUDUR HOTEL JAKARTA, 14 FEBRUARY 2008 OVERVIEW 1. INDONESIA AUTOMOTIVE INDUSTRY 1.1 ASEAN DOMESTIC SALES 1.2 INDONESIA DOMESTIC
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平成26年度 化学物質分析法開発報告書
N,N- N,N-Dimethylacetamide Acethyldimethylamine CAS 127-19-5 C 4 H 9 NO 87.12 ~ 87.14 87.68413 163-165 C 1) - 18.59 C 2) 1 mg/l 25 C 3) 3.3 hpa 2 C 4) log P ow -.77 2).9429 2/4 C 1) 3.1 4) 1.31E - 8 atm-m
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Reaction Mechanism and Liquefaction Process of Coal Yosuke MAEKAWA Fig.2 Produced gas composition of vitrinite hydrogenation at 400 Ž Fig.1 Symplified average structural model of Taiheiyo coal hydrogenation
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(43) Vol.33, No.6(1977) T-239 MUTUAL DIFFUSION AND CHANGE OF THE FINE STRUCTURE OF WET SPUN ANTI-PILLING ACRYLIC FIBER DURING COAGULATION, DRAWING AND DRYING PROCESSES* By Hiroshi Aotani, Katsumi Yamazaki
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2014 Aug. 8No.596 http://www.saitama-ctv-kyosai.net 1021 1125 1127 10 10 27 11 11 17 11 11 20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27
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第3章 焼却灰溶融システムの現状、焼却灰溶融スラグのリサイクルの動向・問題点
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J. Soc. Cosmet. Chem. Jpn. 7-chome, Edogawa-ku, Tokyo 132, Japan 2.1 J. Soc. Cosmet. Chem. Japan. Vol. 31, No. 2 1997 167 Fig.-1 Balanced fiber method Fig.-2 The effects of perming and IG on breaking off
170907_BRO_Corning Single-use Technology.indd
Corning Corning Corning / SIP/CIP cgmp ISO 13485 50 ml 500 L 2D 3D Corning HYPERStack 2 Visit www.corning.com/lifesciences/bioprocess for additional product and technical information. EVA ULDPE PE CPC
