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Publication DateBioresource Technology, ISSN 0960-8524, 09/2014, Volume 167, pp. 94 - 99
Combustion characteristics of biomass are very important to directly utilize as an energy resource. Bamboo was carbonized using a XD-1200N muffle furnace in...
Bamboo-biochars | Combustion characteristics | Biomass | Bamboo | AGRICULTURAL ENGINEERING | WOOD | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | ENERGY & FUELS | BIOMASS FUELS | COCOMBUSTION | Time Factors | Bambusa - chemistry | Carbon - analysis | Charcoal - chemistry | Hot Temperature | Hydrogen - analysis | Oxygen - analysis | Combustion | Design engineering | Carbonizing (combustion) | Biomass burning | Agglomeration | Pollutants | Combustion efficiency
Bamboo-biochars | Combustion characteristics | Biomass | Bamboo | AGRICULTURAL ENGINEERING | WOOD | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | ENERGY & FUELS | BIOMASS FUELS | COCOMBUSTION | Time Factors | Bambusa - chemistry | Carbon - analysis | Charcoal - chemistry | Hot Temperature | Hydrogen - analysis | Oxygen - analysis | Combustion | Design engineering | Carbonizing (combustion) | Biomass burning | Agglomeration | Pollutants | Combustion efficiency
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Loading RightsEnergy Conversion and Management, ISSN 0196-8904, 01/2015, Volume 89, pp. 83 - 91
The energetic conversion of biomass into syngas is considered as reliable energy source. In this context, biomass (miscanthus) and sewage sludge have been...
Miscanthus | Combustion | Gasification | Kinetics | Sewage sludge | TG-MS | THERMOCHEMICAL CONVERSION | CO-PYROLYSIS | ENERGY & FUELS | BEHAVIOR | THERMOGRAVIMETRY | X GIGANTEUS | THERMAL-ANALYSIS | BIOMASS BLENDS | MECHANICS | THERMODYNAMICS | COCOMBUSTION | Sludge | Pyrolysis | Heating | Analyzers | Weight loss | Biomass
Miscanthus | Combustion | Gasification | Kinetics | Sewage sludge | TG-MS | THERMOCHEMICAL CONVERSION | CO-PYROLYSIS | ENERGY & FUELS | BEHAVIOR | THERMOGRAVIMETRY | X GIGANTEUS | THERMAL-ANALYSIS | BIOMASS BLENDS | MECHANICS | THERMODYNAMICS | COCOMBUSTION | Sludge | Pyrolysis | Heating | Analyzers | Weight loss | Biomass
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Loading RightsBioresource Technology, ISSN 0960-8524, 2010, Volume 101, Issue 23, pp. 9373 - 9381
The ash fusion characteristics (AFC) of Capsicum stalks ashes, cotton stalks ashes and wheat stalks ashes that all prepared by ashing at 400 °C, 600 °C and 815...
Temperature | Biomass | Fusion | Ash | COMBUSTION | SLAGGING CHARACTERISTICS | PARTICLES | ENERGY & FUELS | BOILER | COAL ASH | KAOLIN | CHLORINE DEPOSITION | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | GASIFICATION | RESIDUE | COCOMBUSTION | Particulate Matter - chemistry | Coal Ash | X-Ray Diffraction | Thermogravimetry | Plants - chemistry | Carbon - chemistry | Fluid dynamics | Magnesium oxide | Coal | Softening | Cotton | Ashes | Aluminum oxide
Temperature | Biomass | Fusion | Ash | COMBUSTION | SLAGGING CHARACTERISTICS | PARTICLES | ENERGY & FUELS | BOILER | COAL ASH | KAOLIN | CHLORINE DEPOSITION | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | GASIFICATION | RESIDUE | COCOMBUSTION | Particulate Matter - chemistry | Coal Ash | X-Ray Diffraction | Thermogravimetry | Plants - chemistry | Carbon - chemistry | Fluid dynamics | Magnesium oxide | Coal | Softening | Cotton | Ashes | Aluminum oxide
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Loading RightsJournal of Analytical and Applied Pyrolysis, ISSN 0165-2370, 01/2017, Volume 123, pp. 40 - 48
The co-pyrolysis characteristics for hydrochar, paper sludge and their blends were investigated by TG–FTIR technique. The pyrolysis of paper sludge and...
Hydrochar | Paper sludge | Co-pyrolysis | TG–FTIR | LIGNOCELLULOSIC BIOMASS | OIL-SHALE | CHEMISTRY, ANALYTICAL | COMBUSTION | THERMOGRAVIMETRIC ANALYSIS | MUNICIPAL SOLID-WASTE | MICROALGAE | THERMAL-BEHAVIOR | SPECTROSCOPY | KINETICS | HYDROTHERMAL CARBONIZATION HTC | COCOMBUSTION | TG-FTIR | Sludge | Pyrolysis | Analysis | Activation energy
Hydrochar | Paper sludge | Co-pyrolysis | TG–FTIR | LIGNOCELLULOSIC BIOMASS | OIL-SHALE | CHEMISTRY, ANALYTICAL | COMBUSTION | THERMOGRAVIMETRIC ANALYSIS | MUNICIPAL SOLID-WASTE | MICROALGAE | THERMAL-BEHAVIOR | SPECTROSCOPY | KINETICS | HYDROTHERMAL CARBONIZATION HTC | COCOMBUSTION | TG-FTIR | Sludge | Pyrolysis | Analysis | Activation energy
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Loading RightsBioresource Technology, ISSN 0960-8524, 11/2012, Volume 123, pp. 581 - 591
â–º The combustion of biomass proceeded in two stages namely volatile combustion and char combustion. â–º Combustion of PKS and EFB showed additional peak that was...
Co-combustion | Thermogravimetric analysis | Mukah Balingian coal | Oil palm wastes | Iso-conversional model free kinetics | ENERGY | NONISOTHERMAL DATA | ENERGY & FUELS | MODEL-FREE | THERMAL-ANALYSIS | DEVOLATILIZATION | WASTE | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | KINETIC-ANALYSIS | PYROLYSIS | COCOMBUSTION | RESIDUES | Palm Oil | Temperature | Coal - analysis | Oxidation-Reduction | Thermogravimetry - methods | Time Factors | Atmosphere | Malaysia | Biomass | Hot Temperature | Kinetics | Plant Oils - chemistry | Coal industry | Analysis | Combustion | Blends | Polymer blends | Biomass burning | Palm | Coal | Activation energy
Co-combustion | Thermogravimetric analysis | Mukah Balingian coal | Oil palm wastes | Iso-conversional model free kinetics | ENERGY | NONISOTHERMAL DATA | ENERGY & FUELS | MODEL-FREE | THERMAL-ANALYSIS | DEVOLATILIZATION | WASTE | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | KINETIC-ANALYSIS | PYROLYSIS | COCOMBUSTION | RESIDUES | Palm Oil | Temperature | Coal - analysis | Oxidation-Reduction | Thermogravimetry - methods | Time Factors | Atmosphere | Malaysia | Biomass | Hot Temperature | Kinetics | Plant Oils - chemistry | Coal industry | Analysis | Combustion | Blends | Polymer blends | Biomass burning | Palm | Coal | Activation energy
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Loading RightsApplied Energy, ISSN 0306-2619, 11/2013, Volume 111, pp. 257 - 266
Conventional thermochemical treatment of sewage sludge (SS) is energy-intensive due to its high moisture content. To overcome this drawback, the hydrothermal...
Fuel ratio | Combustion kinetics | Oxygen containing functional group | Hydrochar formation | Hydrothermal desulfurization | AQUEOUS-SOLUTIONS | CARBON | ENERGY & FUELS | LIQUID | COAL | LIQUEFACTION | ENGINEERING, CHEMICAL | GASIFICATION | BIOMASS MATERIALS | PYROLYSIS | CELLULOSE | COCOMBUSTION | Sludge | Combustion
Fuel ratio | Combustion kinetics | Oxygen containing functional group | Hydrochar formation | Hydrothermal desulfurization | AQUEOUS-SOLUTIONS | CARBON | ENERGY & FUELS | LIQUID | COAL | LIQUEFACTION | ENGINEERING, CHEMICAL | GASIFICATION | BIOMASS MATERIALS | PYROLYSIS | CELLULOSE | COCOMBUSTION | Sludge | Combustion
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Loading RightsBioresource Technology, ISSN 0960-8524, 2010, Volume 101, Issue 22, pp. 8859 - 8867
Biofuel pellets were prepared from biomass (pine, chestnut and eucalyptus sawdust, cellulose residue, coffee husks and grape waste) and from blends of biomass...
Combustibility | Biomass | Abrasion index | Coal | Pellets | SAWDUST | QUALITY | ENERGY & FUELS | NO EMISSIONS | BEHAVIOR | THERMAL-ANALYSIS | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | KINETICS | COCOMBUSTION | BRIQUETTES | FUELS | Compressive Strength | Plant Extracts - chemistry | Incineration | Plant Components, Aerial - chemistry | Energy Transfer | Hot Temperature | Hardness | Mechanical properties | Combustion | Biomass energy | Analysis | Cellulose | Abrasion | Blends | Polymer blends | Abrasion resistance | Durability | Sawdust
Combustibility | Biomass | Abrasion index | Coal | Pellets | SAWDUST | QUALITY | ENERGY & FUELS | NO EMISSIONS | BEHAVIOR | THERMAL-ANALYSIS | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | KINETICS | COCOMBUSTION | BRIQUETTES | FUELS | Compressive Strength | Plant Extracts - chemistry | Incineration | Plant Components, Aerial - chemistry | Energy Transfer | Hot Temperature | Hardness | Mechanical properties | Combustion | Biomass energy | Analysis | Cellulose | Abrasion | Blends | Polymer blends | Abrasion resistance | Durability | Sawdust
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Loading RightsFuel, ISSN 0016-2361, 07/2016, Volume 176, pp. 110 - 118
A comprehensive study was conducted on the properties of chars which derived from hydrothermal carbonization (HTC) of sewage sludge (SS) while varying the...
Oxidative functional group | Combustion kinetics | Hydrothermal carbonization | Sewage sludge | Char | PAPER SLUDGE | CARBON | ENERGY & FUELS | COAL | SOLID-FUEL PRODUCTION | BLENDS | ENGINEERING, CHEMICAL | WASTE BIOMASS | BIO-OIL | PYROLYSIS | BIOCHAR | COCOMBUSTION | Sludge | Analysis | Combustion | Dehydration (Physiology)
Oxidative functional group | Combustion kinetics | Hydrothermal carbonization | Sewage sludge | Char | PAPER SLUDGE | CARBON | ENERGY & FUELS | COAL | SOLID-FUEL PRODUCTION | BLENDS | ENGINEERING, CHEMICAL | WASTE BIOMASS | BIO-OIL | PYROLYSIS | BIOCHAR | COCOMBUSTION | Sludge | Analysis | Combustion | Dehydration (Physiology)
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Loading RightsBioresource Technology, ISSN 0960-8524, 01/2012, Volume 104, pp. 769 - 774
In this study, ash fusion characteristics (AFC) of biomass red pine, corn straw, Bermuda grass and bamboo are investigated. Results of this study show that ash...
Co-combustion | Biomass | Fusion | Ashing temperature | Thermogravimetric | COMBUSTION | ENERGY & FUELS | DEPOSITION | BEHAVIOR | BOILER | COAL | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | COCOMBUSTION | Plant Extracts - analysis | Plant Extracts - chemistry | Coal Ash - analysis | Heating | Coal Ash - chemistry | Elastic Modulus | Transition Temperature | Mechanical engineering
Co-combustion | Biomass | Fusion | Ashing temperature | Thermogravimetric | COMBUSTION | ENERGY & FUELS | DEPOSITION | BEHAVIOR | BOILER | COAL | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | COCOMBUSTION | Plant Extracts - analysis | Plant Extracts - chemistry | Coal Ash - analysis | Heating | Coal Ash - chemistry | Elastic Modulus | Transition Temperature | Mechanical engineering
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Loading RightsEnergy, ISSN 0360-5442, 10/2018, Volume 161, pp. 517 - 522
Ash fusion characteristics of bamboo, masson pine and coal were investigated using X-ray fluorescence (XRF), X-ray diffraction (XRD), scanning electron...
Bioenergy | Ash fusion | Bamboo | Coal | Masson pine | ENERGY & FUELS | COMBUSTION CHARACTERISTICS | BEHAVIOR | DEPOSITION | BIOMASS FUELS | BLENDS | THERMOGRAVIMETRIC ANALYSIS | COCOMBUSTION CHARACTERISTICS | THERMODYNAMICS | CHEMICAL-COMPOSITION | TORREFIED BAMBOO | PYROLYSIS
Bioenergy | Ash fusion | Bamboo | Coal | Masson pine | ENERGY & FUELS | COMBUSTION CHARACTERISTICS | BEHAVIOR | DEPOSITION | BIOMASS FUELS | BLENDS | THERMOGRAVIMETRIC ANALYSIS | COCOMBUSTION CHARACTERISTICS | THERMODYNAMICS | CHEMICAL-COMPOSITION | TORREFIED BAMBOO | PYROLYSIS
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Loading RightsFuel, ISSN 0016-2361, 11/2018, Volume 231, pp. 379 - 386
A comprehensive analysis of coal quality factors affecting coal agglomeration characteristics was carried out. The influence weight of seven main coal quality...
Weight analysis | Coal agglomeration characteristics | Discriminant index | Entropy method | Coal quality characteristics | COMBUSTION | ENERGY & FUELS | BEHAVIOR | BOILER | STRENGTH | COKE QUALITY | PREDICTION | ENGINEERING, CHEMICAL | COCOMBUSTION
Weight analysis | Coal agglomeration characteristics | Discriminant index | Entropy method | Coal quality characteristics | COMBUSTION | ENERGY & FUELS | BEHAVIOR | BOILER | STRENGTH | COKE QUALITY | PREDICTION | ENGINEERING, CHEMICAL | COCOMBUSTION
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Loading RightsRenewable Energy, ISSN 0960-1481, 10/2018, Volume 126, pp. 563 - 572
Co-firing characteristics of masson pine and coal was determined using thermogravimetric analysis at different heat rates in an air atmosphere. The kinetic...
Pollution | Bioenergy | Co-firing | Kinetics | Ash | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | ENERGY & FUELS | COMBUSTION CHARACTERISTICS | BLENDS | THERMOGRAVIMETRIC ANALYSIS | PULVERIZED COAL | THERMAL-BEHAVIOR | BIOMASS | FUEL | FLUIDIZED-BED | TORREFIED BAMBOO | COCOMBUSTION | Thermodynamics | Combustion | Pollutants | Analysis | Investigations
Pollution | Bioenergy | Co-firing | Kinetics | Ash | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | ENERGY & FUELS | COMBUSTION CHARACTERISTICS | BLENDS | THERMOGRAVIMETRIC ANALYSIS | PULVERIZED COAL | THERMAL-BEHAVIOR | BIOMASS | FUEL | FLUIDIZED-BED | TORREFIED BAMBOO | COCOMBUSTION | Thermodynamics | Combustion | Pollutants | Analysis | Investigations
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Loading RightsApplied Thermal Engineering, ISSN 1359-4311, 07/2018, Volume 140, pp. 158 - 165
The combustion characteristics of predried dyeing sludge (PDS) is studied on a simultaneous thermal analyzer, and compared with that of Xilinhot lignite (XL)...
Predried dyeing sludge | DSC-dDSC method | Combustion characteristics | Thermal analysis | Kinetics analysis | DRIED SEWAGE-SLUDGE | ENERGY & FUELS | PAPER-MILL SLUDGE | COAL | THERMOGRAVIMETRIC ANALYSIS | ENGINEERING, MECHANICAL | WASTE | MECHANICS | THERMODYNAMICS | PYROLYSIS | COCOMBUSTION | Combustion | Lignite | Sludge | Activation energy | Analysis
Predried dyeing sludge | DSC-dDSC method | Combustion characteristics | Thermal analysis | Kinetics analysis | DRIED SEWAGE-SLUDGE | ENERGY & FUELS | PAPER-MILL SLUDGE | COAL | THERMOGRAVIMETRIC ANALYSIS | ENGINEERING, MECHANICAL | WASTE | MECHANICS | THERMODYNAMICS | PYROLYSIS | COCOMBUSTION | Combustion | Lignite | Sludge | Activation energy | Analysis
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Loading RightsFuel, ISSN 0016-2361, 10/2016, Volume 181, pp. 905 - 915
Hydrothermal carbonization (HTC) is a promising pretreatment for converting wet biomass waste into a solid fuel. In this paper, the resource utilization of...
Pyrolysis | Combustion | Kinetics | Hydrothermal carbonization | Municipal solid wastes | CO2-gasification | gasification | PAPER SLUDGE | SEWAGE-SLUDGE | LIGNOCELLULOSIC BIOMASS | ENERGY-PRODUCTION | CO-PYROLYSIS | ENERGY & FUELS | GASIFICATION CHARACTERISTICS | STEAM GASIFICATION | ENGINEERING, CHEMICAL | COCOMBUSTION CHARACTERISTICS | FLUIDIZED-BED | HYDROCHAR FUEL
Pyrolysis | Combustion | Kinetics | Hydrothermal carbonization | Municipal solid wastes | CO2-gasification | gasification | PAPER SLUDGE | SEWAGE-SLUDGE | LIGNOCELLULOSIC BIOMASS | ENERGY-PRODUCTION | CO-PYROLYSIS | ENERGY & FUELS | GASIFICATION CHARACTERISTICS | STEAM GASIFICATION | ENGINEERING, CHEMICAL | COCOMBUSTION CHARACTERISTICS | FLUIDIZED-BED | HYDROCHAR FUEL
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Mechanical stability and combustion characteristics of hydrochar/lignite blend pellets
Fuel, ISSN 0016-2361, 01/2016, Volume 164, pp. 59 - 65
In the present study, hydrochar/lignite pellets were prepared and their fuel qualities including tensile strength, combustion characteristics and ash-related...
Ash-related problems | Fuel quality | Solid fuel | Biomass | Hydrothermal | WOODY BIOMASS | BOILERS | HYDROTHERMAL CARBONIZATION | EMISSIONS | ENERGY & FUELS | COAL | BIOMASS PELLETS | FUEL PELLETS | ENGINEERING, CHEMICAL | DURABILITY | WASTE BIOMASS | COCOMBUSTION | Combustion | Lignite | Green technology
Ash-related problems | Fuel quality | Solid fuel | Biomass | Hydrothermal | WOODY BIOMASS | BOILERS | HYDROTHERMAL CARBONIZATION | EMISSIONS | ENERGY & FUELS | COAL | BIOMASS PELLETS | FUEL PELLETS | ENGINEERING, CHEMICAL | DURABILITY | WASTE BIOMASS | COCOMBUSTION | Combustion | Lignite | Green technology
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Loading RightsJournal of Analytical and Applied Pyrolysis, ISSN 0165-2370, 2005, Volume 74, Issue 1, pp. 502 - 511
The characterisation of the initial devolatilisation products could provide important information for understanding synergistic effects and subsequently the...
Pyrolysis | GC–MS | Co-pyrolysis | Biomass | Coal | TGA | GC-MS | CHEMISTRY, ANALYTICAL | biomass | COMBUSTION | EMISSIONS | BEHAVIOR | PYROLYTIC CHARACTERISTICS | FIXED-BED | DISTRIBUTIONS | pyrolysis | SPECTROSCOPY | co-pyrolysis | GASIFICATION | coal | COCOMBUSTION | Coal industry | Lignite | Analysis
Pyrolysis | GC–MS | Co-pyrolysis | Biomass | Coal | TGA | GC-MS | CHEMISTRY, ANALYTICAL | biomass | COMBUSTION | EMISSIONS | BEHAVIOR | PYROLYTIC CHARACTERISTICS | FIXED-BED | DISTRIBUTIONS | pyrolysis | SPECTROSCOPY | co-pyrolysis | GASIFICATION | coal | COCOMBUSTION | Coal industry | Lignite | Analysis
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Loading RightsEnergy & Fuels, ISSN 0887-0624, 10/2009, Volume 23, Issue 10, pp. 5173 - 5178
The fuel characteristics of two typical seaweeds (Enteromorpha clathrata and Sargassum natans) were studied. It was found that both the contents of volatile...
Renewable Energy | ENGINEERING, CHEMICAL | OIL-SHALE | PULVERIZED COAL | SEWAGE-SLUDGE | FLUIDIZED-BED COMBUSTION | ENERGY & FUELS | KINETICS | HIGH ASH COAL | PYROLYSIS | COCOMBUSTION | THERMOGRAVIMETRIC ANALYSIS | THERMAL-ANALYSIS
Renewable Energy | ENGINEERING, CHEMICAL | OIL-SHALE | PULVERIZED COAL | SEWAGE-SLUDGE | FLUIDIZED-BED COMBUSTION | ENERGY & FUELS | KINETICS | HIGH ASH COAL | PYROLYSIS | COCOMBUSTION | THERMOGRAVIMETRIC ANALYSIS | THERMAL-ANALYSIS
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Loading RightsBioresource Technology, ISSN 0960-8524, 12/2015, Volume 198, pp. 115 - 123
The pyrolysis and oxy-fuel combustion characteristics of petrochemical wastewater sludge (PS) were studied in air (O /N ) and oxy-fuel (O /CO ) atmospheres...
Pyrolysis | Kinetics | Sludge | Oxy-fuel combustion | O2 concentration | concentration | NITRIC-OXIDE RELEASE | ENERGY & FUELS | BEHAVIOR | O-2 concentration | ATMOSPHERES | COCOMBUSTION CHARACTERISTICS | AGRICULTURAL ENGINEERING | O-2/N-2 | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | BIOMASS | FLUIDIZED-BED | RESIDUE | COAL COMBUSTION | TECHNOLOGY | Gases - chemistry | Oxygen - pharmacology | Sewage - chemistry | Thermogravimetry - methods | Waste Water - chemistry | Atmosphere | Hot Temperature | Carbon Dioxide - pharmacology | Combustion |
Pyrolysis | Kinetics | Sludge | Oxy-fuel combustion | O2 concentration | concentration | NITRIC-OXIDE RELEASE | ENERGY & FUELS | BEHAVIOR | O-2 concentration | ATMOSPHERES | COCOMBUSTION CHARACTERISTICS | AGRICULTURAL ENGINEERING | O-2/N-2 | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | BIOMASS | FLUIDIZED-BED | RESIDUE | COAL COMBUSTION | TECHNOLOGY | Gases - chemistry | Oxygen - pharmacology | Sewage - chemistry | Thermogravimetry - methods | Waste Water - chemistry | Atmosphere | Hot Temperature | Carbon Dioxide - pharmacology | Combustion |