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Combustion
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AbstractThe article contains sections titled:1.Introduction2.History of combustion3.Combustion fundamentals3.1.Combustion chemistry of gases3.2.Combustion chemistry of liquids3.3.Combustion chemistry of solids3.4.Other fundamental terms in combustion4.Combustion products and pollutants5.Fuels5.1.Characterization of fuels5.1.1.Solid fuel characterization5.1.2.Liquid fuel characterization5.1.3.Gaseous fuel characterization5.2.Solid fuels5.2.1.Wood5.2.2.Coal5.2.3.Peat5.2.4.Coke5.2.5.Municipal Solid Waste (MSW)5.3.Liquid fuels5.3.1.Gasoline (petrol)5.3.2.Diesel5.3.3.Kerosene5.3.4.Fuel oil5.3.5.Synthetic fuels5.3.6.Methanol5.3.7.Ethanol5.3.8.Butanol5.4.Gaseous fuels5.4.1.Natural gas5.4.2.Hydrogen5.4.3.Propane5.4.4.Butane5.4.5.Liquefied petroleum gas (LPG)5.4.6.Acetylene5.4.7.Gasification products5.5.Biofuels5.5.1.Biodiesel5.5.2.Biogas5.5.3.Biomass5.6.Transportation fuels6.Energy conversion by combustion7.Combustion processes and combustors7.1.Types of combustors7.2.Components7.2.1.Burners7.2.2.Ignition system7.2.3.Furnace7.2.4.Insulation7.2.5.Ash handling system7.2.6.Flue gas stack7.3.Solid fuel combustion systems7.3.1.Pulverized coal (PC) combustion systems7.3.2.Fluidized bed combustion (FBC)7.3.3.Gasification7.3.4.Waste‐to‐Energy (WtE)7.4.Liquid fuel combustion systems7.5.Gaseous fuel combustion systems7.5.1.Gas engine7.5.2.Gas turbine8.Power generation ‐ Thermal power plants8.1.Pulverized coal (PC) power plant8.2.Cofiring8.3.Cogeneration (Combined heat and power, CHP)8.4.Trigeneration8.5.Combined cycle8.6.Centralized vs. distributed power generation8.7.Boilers (Heaters)9.Corrosion and fouling10.Energy storage11.Energy transportation and distribution12.Special industries using combustion13.Combustion diagnostics and control13.1.Combustion diagnostics13.2.Advanced combustion control14.Safety14.1.Safe combustion14.2.Fire prevention14.3.Explosion and dust explosion prevention15.Sustainable combustion – climate change mitigation16.Combustion synthesis17.Key challenges and new developments in combustion
Title: Combustion
Description:
AbstractThe article contains sections titled:1.
Introduction2.
History of combustion3.
Combustion fundamentals3.
1.
Combustion chemistry of gases3.
2.
Combustion chemistry of liquids3.
3.
Combustion chemistry of solids3.
4.
Other fundamental terms in combustion4.
Combustion products and pollutants5.
Fuels5.
1.
Characterization of fuels5.
1.
1.
Solid fuel characterization5.
1.
2.
Liquid fuel characterization5.
1.
3.
Gaseous fuel characterization5.
2.
Solid fuels5.
2.
1.
Wood5.
2.
2.
Coal5.
2.
3.
Peat5.
2.
4.
Coke5.
2.
5.
Municipal Solid Waste (MSW)5.
3.
Liquid fuels5.
3.
1.
Gasoline (petrol)5.
3.
2.
Diesel5.
3.
3.
Kerosene5.
3.
4.
Fuel oil5.
3.
5.
Synthetic fuels5.
3.
6.
Methanol5.
3.
7.
Ethanol5.
3.
8.
Butanol5.
4.
Gaseous fuels5.
4.
1.
Natural gas5.
4.
2.
Hydrogen5.
4.
3.
Propane5.
4.
4.
Butane5.
4.
5.
Liquefied petroleum gas (LPG)5.
4.
6.
Acetylene5.
4.
7.
Gasification products5.
5.
Biofuels5.
5.
1.
Biodiesel5.
5.
2.
Biogas5.
5.
3.
Biomass5.
6.
Transportation fuels6.
Energy conversion by combustion7.
Combustion processes and combustors7.
1.
Types of combustors7.
2.
Components7.
2.
1.
Burners7.
2.
2.
Ignition system7.
2.
3.
Furnace7.
2.
4.
Insulation7.
2.
5.
Ash handling system7.
2.
6.
Flue gas stack7.
3.
Solid fuel combustion systems7.
3.
1.
Pulverized coal (PC) combustion systems7.
3.
2.
Fluidized bed combustion (FBC)7.
3.
3.
Gasification7.
3.
4.
Waste‐to‐Energy (WtE)7.
4.
Liquid fuel combustion systems7.
5.
Gaseous fuel combustion systems7.
5.
1.
Gas engine7.
5.
2.
Gas turbine8.
Power generation ‐ Thermal power plants8.
1.
Pulverized coal (PC) power plant8.
2.
Cofiring8.
3.
Cogeneration (Combined heat and power, CHP)8.
4.
Trigeneration8.
5.
Combined cycle8.
6.
Centralized vs.
distributed power generation8.
7.
Boilers (Heaters)9.
Corrosion and fouling10.
Energy storage11.
Energy transportation and distribution12.
Special industries using combustion13.
Combustion diagnostics and control13.
1.
Combustion diagnostics13.
2.
Advanced combustion control14.
Safety14.
1.
Safe combustion14.
2.
Fire prevention14.
3.
Explosion and dust explosion prevention15.
Sustainable combustion – climate change mitigation16.
Combustion synthesis17.
Key challenges and new developments in combustion.
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