Transcription of アンモニア混焼技術 - nedo.go.jp
1 CCUS 2020 1 .. 2021 . 2(1) CO2 CO2 CO2 2019 3 . 3(2) 2050 CO2 2050 2020 12 . 4(1) CO2 2020 12 2050 2020 12.
2 (2) NOx HELE(High Efficiency Low Emission ) NOx NOx (Thermal)NOx NOx (Fuel)NOx NOx METI 2050 2020 NEDO JCOAL 5 NOx NOx 5 NOx NH3/ 9 NH3/ 4 2MW 50% ( ) 2019 5 2021 3 IHI 3.
3 67 NOx(Fuel-NOx) 3. 8 050100150[mm](a)(b)050100150[mm](a)(b)02 040608010012014016016035 T [K]d [ m] 72 mm(1) (2) 100% 50% 100% ( ) 3. 9 (3)2MW 2MW 70% NH3 N2O NOx 15ppm 2MW [dry ppm@16%O2]NH3mi xi ng rati o [%LHV]NO NOx N2 ONH3N2O [dry ppm@16%O2] and unburnt NH3[dry ppm]3.
4 10 . 2019 5 2021 2 IHI 11 (NO NOx (60% 60% NOx . (1) 12 20% NO NOx NH360% NH360% 30%30%35% 60% 20% 050100150200250 NOx (O26% )[ppm] 20% 20% NOx.))
5 (2) 13 NO NO _ _ NO NO 20mm Nd:YAGlaserDye laserICCD CameraPCPulse delaygeneratorPulverized coalsupply deviceCylindricallensCounterflowburner n 260nm BPF 10nm nm pulse mJ/pulse 5 ns 20 ns 200 13 NOx NOx . (3)NO- (NO-PLIF) NOx 14 FS SIP 100 kW 20% 20% 20% 20% NH3.
6 (4) (1/2)15 / ( ) ( ) ( ) . (4) (2/2)16 . 2021 1 / / / 1. 2. 2MW 20% 60% 100 3.
7 1. NO 20% 2. 20% 3. 2019 2020 2021 . 2021 17 G (1) (2) 1/2 2023 2025 ]
