X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (3321) 3321
Conference Proceeding (50) 50
Book Chapter (19) 19
Newspaper Article (12) 12
Book / eBook (5) 5
Government Document (4) 4
Magazine Article (4) 4
Dissertation (3) 3
Publication (3) 3
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
pyrolysis (1481) 1481
low-temperature (1324) 1324
low temperature (1005) 1005
energy & fuels (851) 851
engineering, chemical (727) 727
niedertemperatur (715) 715
materials science, multidisciplinary (599) 599
pyrolyse (513) 513
oxidation (477) 477
chemistry, physical (474) 474
biomass (469) 469
analysis (452) 452
combustion (425) 425
carbon (410) 410
chemistry (357) 357
kinetics (343) 343
nanoparticles (341) 341
physics, applied (333) 333
temperature (312) 312
chemistry, multidisciplinary (307) 307
catalysts (293) 293
coal (291) 291
catalysis (278) 278
thermodynamics (274) 274
low-temperature oxidation (257) 257
oxygen (239) 239
hochtemperatur (228) 228
environmental sciences (221) 221
organic chemistry (220) 220
physics, condensed matter (219) 219
hydrocarbons (206) 206
high-tc (205) 205
hydrogen (205) 205
nanoscience & nanotechnology (194) 194
decomposition (193) 193
chemistry, analytical (188) 188
kohlenstoff (188) 188
adsorption (187) 187
biomasse (184) 184
low-temperature pyrolysis (178) 178
conversion (172) 172
high temperature (172) 172
gasification (170) 170
thin films (167) 167
nitrogen (164) 164
sauerstoff (164) 164
temperature effects (162) 162
morphology (153) 153
cellulose (146) 146
methane (146) 146
engineering, environmental (144) 144
behavior (143) 143
electrochemistry (143) 143
spectroscopy (143) 143
oxidation-reaction (142) 142
low-temperature synthesis (141) 141
spray-pyrolysis (139) 139
physical chemistry (138) 138
mechanism (136) 136
lignin (135) 135
materials science, ceramics (135) 135
nanotechnology (135) 135
thin-films (133) 133
carbon dioxide (132) 132
growth (130) 130
materials science (129) 129
zinc oxide (129) 129
brennstoff (128) 128
inorganic chemistry (125) 125
precursors (125) 125
deposition (124) 124
lignite (123) 123
synthesis (123) 123
chemical-vapor-deposition (122) 122
reduction (121) 121
characterization and evaluation of materials (119) 119
chemical properties (119) 119
thermal-decomposition (119) 119
oxides (116) 116
röntgendiffraktion (114) 114
nanopartikel (113) 113
reaction kinetics (112) 112
x-ray diffraction (112) 112
scanning electron microscopy (111) 111
stability (111) 111
activation energy (110) 110
bio-oil (109) 109
polymer sciences (108) 108
fabrication (107) 107
chemistry, applied (105) 105
thermogravimetric analysis (105) 105
polymers (104) 104
fuels (103) 103
kohle (103) 103
nickel (103) 103
energy (102) 102
reactivity (102) 102
reactors (102) 102
biochar (101) 101
fourier transforms (101) 101
more...
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (3388) 3388
Japanese (31) 31
Chinese (30) 30
German (6) 6
French (5) 5
Russian (5) 5
Korean (4) 4
Dutch (3) 3
Polish (1) 1
Serbian (1) 1
Slovak (1) 1
Ukrainian (1) 1
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Fuel (Guildford), ISSN 0016-2361, 2019, Volume 242, pp. 62 - 67
Urea pyrolysis in the temperature range from 132.5 to 190 °C was studied in a self-designed fixed-bed experimental system, and the products in solid and gaseous... 
Cyanuric acid | NH3 | Urea pyrolysis | HNCO | Biuret | NH | Urea | Pyrolysis | Liquid chromatography | Analysis | Ammonia | Temperature effects | Decomposition reactions | Data processing | Ureas | Decomposition | Low temperature
Journal Article
Renewable & sustainable energy reviews, ISSN 1364-0321, 2015, Volume 50, pp. 1081 - 1096
.... Pyrolysis is an indirect conversion method, and can be described in simpler terms as a thermal decomposition of biomass under oxygen-depleted conditions to an array of solid, liquid and gaseous... 
Pyrolysis | Modelling | Biomass | Kinetics | Biochar | Hydrodynamic | GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY | HEAT-TRANSFER | ENERGY & FUELS | WOOD PYROLYSIS | KINETIC-MODEL | FLUIDIZED-BED REACTOR | LIGNOCELLULOSIC MATERIALS | MATHEMATICAL-MODEL | COAL PARTICLES | LOW-TEMPERATURE PYROLYSIS | DISCRETE PARTICLE SIMULATION | FLASH PYROLYSIS | Analysis | Chemical properties
Journal Article
Renewable & sustainable energy reviews, ISSN 1364-0321, 2012, Volume 16, Issue 5, pp. 2781 - 2805
Journal Article
Fuel processing technology, ISSN 0378-3820, 08/2018, Volume 177, pp. 275 - 282
Co-pyrolysis of oily sludge and rice husk was conducted in a fixed-bed reactor to investigate the effects of interactions on the products and improve the quality of the pyrolysis oil... 
Rice husk | Oily sludge | Co-pyrolysis | Sulfur | Product analysis | SEWAGE-SLUDGE | LIGNOCELLULOSIC BIOMASS | ENERGY & FUELS | FREE-FALL REACTOR | FLUIDIZED-BED REACTOR | LIGNITE | ENGINEERING, CHEMICAL | PETROLEUM SLUDGE | KINETICS | GAS-PRODUCTION | THERMOGRAVIMETRIC ANALYZER | LOW-TEMPERATURE PYROLYSIS | CHEMISTRY, APPLIED | Sulfur compounds | Pyrolysis | Sludge | Analysis | Hydrogen sulfide | Gas chromatography | Alkali metals | Vapor phases | Hydrocarbons | Mass spectrometry
Journal Article
Journal of analytical and applied pyrolysis, ISSN 0165-2370, 09/2017, Volume 127, pp. 229 - 239
.... Here, a systematic pyrolysis − gas chromatography–mass spectrometry study of eight commonly used green, blue and violet triarylmethane dyes... 
Pyrolysis | Modern ink | GC–MS | Dyes | Triarylmethane | CHEMISTRY, ANALYTICAL | ART | IDENTIFICATION | GREEN | SURFACE-ENHANCED RAMAN | GC-MS | LC-MS | SPECTROSCOPY | BALLPOINT PEN INKS | CRYSTAL VIOLET | SYNTHETIC ORGANIC PIGMENTS | Mass spectrometry | Chromatography | Gas chromatography | Analysis | Forensic sciences | Artists | Painting
Journal Article
Fuel processing technology, ISSN 0378-3820, 10/2015, Volume 138, pp. 175 - 183
Thermochemical conversion is a promising pathway to renewable fuels. Torrefaction is the low temperature conversion to a primarily solid fuel, and pyrolysis is a higher temperature process that produces mainly a liquid bio-oil product... 
Kinetic model | Molecular detachment | Biomass pyrolysis | Thermal degradation | WOOD | CONVERSION | ENERGY & FUELS | MECHANISMS | ENGINEERING, CHEMICAL | TEMPERATURE | PRETREATMENT | BIO-OIL | BIOMASS | VOLATILE SPECIES RELEASE | CHEMISTRY, APPLIED | CELLULOSE | ASPEN | Pyrolysis | Lignin | Analysis | Cellulose | Chemical reaction, Rate of | Activation energy | Mechanical engineering | Degradation | Dynamics | Chemical reactions | Mathematical models | Fuels | Drying
Journal Article
Fuel (Guildford), ISSN 0016-2361, 2017, Volume 193, pp. 460 - 466
Journal Article
Energy (Oxford), ISSN 0360-5442, 2018, Volume 155, pp. 215 - 225
Kinetic studies and the effect of the vulcanization process on the pyrolysis of natural rubber (NR), butadiene rubber (BR... 
Vulcanization | Pyrolysis | DAEM | Kinetics | Rubber | ENERGY | PARTICLE | ENERGY & FUELS | BEHAVIOR | SULFUR | PARAMETERS | THERMAL-DEGRADATION | THERMODYNAMICS | FUEL | TIRE PYROLYSIS | DEVOLATILISATION | Sulfur compounds | Crosslinked polymers | Activation energy | Analysis | Butadiene
Journal Article
Combustion and flame, ISSN 0010-2180, 12/2015, Volume 162, Issue 12, pp. 4456 - 4470
Journal Article