Integrated Gasification Combined Cycle

1990' 91 ' 92 '93 ' 94 ' 95 '96 ' 97 ' 98 '99 ' 00 ' 01 ' 02 ' 03 Coal consumption in iron making sector and crude steel production

Location of iron works

Figures in parentheses indicate crude steel production (MT) as of FY2005.

Kobe Steel (Kobe) (1,062,063) Kobe Steel (Kakogawa) (5,397,267) -

JFE Steel (Mizushima) (8,423,478) JFE Steel (Fukuyama) (9,885,534)

Nippon Steel (Yawata) (3,514,941)

Kobe Steel (Kobe) (1,062,063) Kobe Steel (Kakogawa) (5,397,267) -

Nippon Steel (Yawata) (3,514,941)

Yawata Iron Works
Sumitomo Metal (Kashima) (6,820,450) JFE Steel (Chiba) (4,186,020) Nippon Steel (Kimitsu) (9,195,689)

JFE Steel (Keihin) (3,472,723) Nippon Steel (Nagoya) (5,651,300)

- Sumitomo Metal (Wakayama) (3,412,887) -Nippon Steel (Oita) (8,012,585) ^

Coal-fired power generation technologies

. Pulverized Coal-fired Power Generation ' Technology (Ultra Super Critical Steam)

Pressurized Internal Circulating Fluidized-bed Combustion Technology (PICFBC)

Coal

Pulverized coal

Hydrogen-from-Coal Process (HYCOL)

Integrated Coal Gasification Combined Cycle (IGCC)

. Pulverized Coal-fired Power Generation ' Technology (Ultra Super Critical Steam)

Pressurized Internal Circulating Fluidized-bed Combustion Technology (PICFBC)

Combustion furnace boiler w

Coal gasification furnace w

Pulverised Coal Furnace

Integrated Coal Gasification Fuel Cell Combined Cycle Electric Power Generating Technology (IGFC)

Next-generation, High-efficiency Integrated Coal Gasification Electric Power Generating Process (A-IGCC/A-IGFC)

Combustion furnace boiler w

Coal gasification furnace w

Integrated Coal Gasification Fuel Cell Combined Cycle Electric Power Generating Technology (IGFC)

Wastewater

Next-generation, High-efficiency Integrated Coal Gasification Electric Power Generating Process (A-IGCC/A-IGFC)

Multi-purpose Coal Gasification Technology Development (EAGLE)

Hyper-coal-based High-efficiency Combustion Technology (Hyper-coal)

Iron making technology

Pulverized Coal Injection for Blast Furnaces (PCI)

Formed Coke Process (FCP)

Blast furnace

Coal

Blast furnace

Coal Fired Blast Furnace

> Super Coke Oven for Productivity and Environment Enhancement toward the 21st Century (SCOPE21)

Direct Iron Ore Smelting Reduction Process (DIOS)

New Scrap Recycling Process (NSR)

> Super Coke Oven for Productivity and Environment Enhancement toward the 21st Century (SCOPE21)

Direct Iron Ore Smelting Reduction Process (DIOS)

Coke Dry Quenching Technology (CDQ)

New Scrap Recycling Process (NSR)

CCT in Japanese Industries

Cement production field

Ofunato Cement Plant

Location of cement plants

Figures in parentheses indicate clinker production capacity (1000 tons/yr) as of April 1, 2005.

Myojo Cement (Itoigawa) (2,108) Denki Kagaku Kogyo (Omi) (2,703)

Sumitomo Osaka Cement (Gifu) (1,592) Tsuruga Cement (Tsuruga) (816)

Total domestic coal consum

ption

Cem

ent

pre

du

tio

n

-•n

Co

al c<

uns

um|

tio

n

140 o

1990 '91 ' 92 '93 ' 94 ' 95 ' 96 ' 97 ' 98 ' 99 ' 00 ' 01 '02 ' 03 Coal consumption in cement production sector and cement production

1990 '91 ' 92 '93 ' 94 ' 95 ' 96 ' 97 ' 98 ' 99 ' 00 ' 01 '02 ' 03 Coal consumption in cement production sector and cement production

Tokuyama (Nanyo) (5,497)

Tosoh (2,606) Ube Industries (1,612) Ube Industries (4,872)

Myojo Cement (Itoigawa) (2,108) Denki Kagaku Kogyo (Omi) (2,703)

Ofunato Nagoya
Nittetsu Cement (Muroran) (968) Taiheiyo Cement (Kamiiso) (3,944) Mitsubishi Material (Aomori) (1,516) Hachinohe Cement (Hachinohe) (1,457) Taiheiyo Cement (Ofunato) (2,680)

Mitsubishi Material (Iwate) (670) Hitachi Cement (Hitachi) (848) Sumitomo Osaka Cement (Tochigi) (1,489) Chichibu Taiheiyo Cement (Chichibu) (800) Taiheiyo Cement (Kumagaya) (2,267) Mitsubishi Material (Yokoze) (1,213) Taiheiyo Cement (Saitama) (1,655) DC (Kawasaki) (1,108) Taiheiyo Cement (Fujiwara) (2,407) Taiheiyo Cement (Tosa) (1,165) Taiheiyo Cement (Kochi) (4,335) Taiheiyo Cement (Tsukumi) (4,598) Taiheiyo Cement (Saeki) (1,426)

Nippon Steel Blast Furnace Cement (Tobata) (808)— Mitsubishi Materials (Kyushu) (8,039) — Ube Industries (Kanda) (3,447$ — Kanda Cement (Kanda) (1,085) — Kawara Taiheiyo Cement (Kawara) (800) — Mitsui Mining (Tagawa) (1,977) — Aso Cement (Tagawa) (1,412) —

Ryukyu Cement (Yabu)(722)

140 o

Coal chemicals and other fields

Clean Coal TechnologiesKoshi Otak
1990 ' 91 '92 '93 ' 94 ' 95 ' 96 ' 97 '98 '99 ' 00 ' 01 ' 02 ' 03 Coal energy supply, GDP, and CO2 emissions in Japan

Figures in parentheses indicate coal's percentage of primary energy.

Location of chemical complexes

Figures in parentheses indicate ethylene production capacity (1000 tons/yr) at the end of FY2005.

Mizushima Mitsubishi

Mitsubishi Chemical (Mizushima) (450) -Asahi Kasei (Mizushima) -Sanyo Petrochemical (443)

Mitsui Chemicals (Iwakuni-otake) (623) Idemitsu Petrochemical (Suo) (623)

Mitsubishi Chemical (Kashima) (828) Maruzen Petrochemical (Goi) (480) Keihin Ethylene (690)

Mitsui Chemicals (Ichihara) (553) Idemitsu Petrochemical (Chiba) (374) Sumitomo Chemical (Anegasaki, Sodegaura) (380)

Nippon Petrochemicals (Kawasaki) (404) Tonen Chemical (Kawasaki) (478) Mitsubishi Chemical (Yokkaichi) Tosoh (Yokkaichi) (493)

Mitsui Chemicals (Osaka) Osaka Petrochemical (455)

Mitsui Chemicals (Osaka) Osaka Petrochemical (455)

Ryukyu Cement (Yabu) (722)

Cement production technology

Fluidized-bed Advanced Cement Kiln System (FAKS)

Coal

Electric precipitator

Iron raw material,/ ^

Fluidized-bed Advanced Cement Kiln System (FAKS)

Coal

Electric precipitator

Iron raw material,/ ^

Iron Raw Material

Recycled raw materials

Raw material mill pre_heater kiln Clinker —

cooler

Clinker Pre-pulverizing silo mill

Recycled raw materials

Raw material mill pre_heater kiln Clinker —

cooler

Clinker Pre-pulverizing silo mill

Coal chemical process

Coal

Coal Liquefaction Technology Development in Japan

Bituminous Coal Liquefaction Technology (NEDOL)

Brown Coal Liquefaction Technology (BCL)

Dimethyl Ether Production Technology (DME)

Hydrogen Production by Reaction Integrated Novel Gasification Process (HyPr-RING)

Raw material charge process

Fractionation process

Coal conversion process

Going Green For More Cash

Going Green For More Cash

Stop Wasting Resources And Money And Finnally Learn Easy Ideas For Recycling Even If You’ve Tried Everything Before! I Easily Found Easy Solutions For  Recycling Instead Of Buying New And Started Enjoying Savings As Well As Helping The Earth And I'll Show You How YOU Can, Too! Are you sick to death of living with the fact that you feel like you are wasting resources and money?

Get My Free Ebook


Responses

  • Rose
    How does coalfired circulating fluidized bed combustion technology?
    7 years ago

Post a comment