| 1313 - 1322 |
Deposits on heat transfer tubes during co-cornbustion of biofuels and sewage sludge
Amand LE, Leckner B, Eskilsson D, Tullin C |
| 1323 - 1328 |
Some temperature-sensitive properties of pure linear alkanes and n-ary mixtures
Petitjean D, Schmitt JF, Fiorani JM, Laine V, Bouroukba M, Dirand M, Cunat C |
| 1329 - 1334 |
Two-step process for synthesis of a single phase Na-A zeolite from coal fly ash by dialysis
Tanaka H, Eguchi H, Fujimoto S, Hino R |
| 1335 - 1345 |
Devolatilization characteristics of large particles of tyre rubber under combustion conditions
Larsen MB, Schultz L, Glarborg P, Skaarup-Jensen L, Dam-Johansen K, Frandsen F, Henriksen U |
| 1346 - 1353 |
Characterization of laminar premixed methanol-air flames
Liao SY, Jiang DM, Huang ZH, Zeng K |
| 1354 - 1363 |
Deep desulphurization of gasoline and diesel fuels using non-hydrogen consuming techniques
Ali MF, Al-Malki A, El-Ali B, Martinie G, Siddiqui MN |
| 1364 - 1370 |
Assessment of the water quality produced from mechanical thermal expression processing of three Latrobe Valley lignites
Butler CJ, Green AM, Chaffee AL |
| 1371 - 1377 |
Effect of Al2O3/SiO2 ratio on iron-based catalysts, for Fischer-Tropsch synthesis
Wan HJ, Wu BS, Zhang CH, Teng BT, Tao ZC, Yang Y, Zhu YL, Xiang HW, Li YW |
| 1378 - 1382 |
Production of alkaline materials, surfactants and enzymes by Penicillium decumbens strain P6 in association with lignite degradation/solubilization
Yuan H, Yang J, Chen W |
| 1383 - 1388 |
Reduction of NO in the exhaust gas by reaction with N radicals
Leipold F, Fateev A, Kusano Y, Stenum B, Bindslev H |
| 1389 - 1395 |
Evaluation of mercury associations in two coals of different rank using physical separation procedures
Lopez-Anton MA, Diaz-Somoano M, Garcia AB, Martinez-Tarazona MR |
| 1396 - 1402 |
The prediction of clay contents in oil shale using DRIFTS and TGA data facilitated by multivariate calibration
Awaja F, Bhargava S |
| 1403 - 1410 |
The effect of alkalinity of Class F PC fly ash on metal release
Kim AG |
| 1411 - 1417 |
Formation of NOx precursors during the pyrolysis of coal and biomass. Part IX. Effects of coal ash and externally loaded-Na on fuel-N conversion during the reforming of coal and biomass in steam
Tian FJ, Yu JL, McKenzie LJ, Hayashi J, Li CZ |
| 1418 - 1427 |
Characteristics and composition of fly ash from Canadian coal-fired power plants
Goodarzi F |
| 1428 - 1438 |
A 300 W laboratory reactor system for chemical-looping combustion with particle circulation
Johansson E, Mattisson T, Lyngfelt A, Thunman H |
| 1439 - 1445 |
Effect of coal particle size distribution on packed bed pressure drop and gas flow distribution
Keyser MJ, Conradie M, Coertzen M, Van Dyk JC |
| 1446 - 1457 |
Formation of submicron particulate matter (PMI) during coal combustion and influence of reaction temperature
Zhang L, Ninomiya Y, Yamashita T |
| 1458 - 1464 |
An experimental study on the spray structure of oxygenated fuel using laser-based visualization and particle image velocimetry
Wu ZJ, Zhu ZY, Huang Z |
| 1465 - 1472 |
Asphaltene dispersions in dilute oil solutions
Evdokimov IN, Eliseev NY, Akhmetov BR |
| 1473 - 1482 |
Influence of the pyrolysis heating rate on the steam gasification rate of large wood char particles
Mermoud F, Salvador S, de Steene LV, Golfier F |
| 1483 - 1493 |
Improved deep desulphurisation of middle distillates by a two-phase reactor with pre-saturator
Wache W, Datsevich L, Jess A, Neumann G |
| 1494 - 1497 |
Quality analysis of automotive fuel using solvatochromic probes
Budag R, Giusti LA, Machado VG, Machado C |
| 1498 - 1508 |
Characterisation of products from pyrolysis of waste sludges
Karayildirim T, Yanik J, Yuksel M, Bockhorn H |
| 1509 - 1517 |
Volatilisation and catalytic effects of alkali and alkaline earth metallic species during the pyrolysis and gasification of Victorian brown coal. Part VII. Raman spectroscopic study on the changes in char structure during the catalytic gasification in air
Li XJ, Hayashi J, Li CZ |
| 1518 - 1525 |
Volatilisation and catalytic effects of alkali and alkaline earth metallic species during the pyrolysis and gasification of Victorian brown coal. Part VIII. Catalysis and changes in char structure during gasification in steam
Li XJ, Li CZ |
| 1526 - 1534 |
Mineralogy and phase transition of oil sands coke ash
Jang H, Etsell TH |
| 1535 - 1540 |
Pyrolysis and gasification of pellets from sugar cane bagasse and wood
Erlich C, Bjornbom E, Bolado D, Giner M, Fransson TH |
| 1541 - 1549 |
The behaviour of phosphorus in the flue gas during the combustion of high-phosphate fuels
Beck J, Unterberger E |
| 1550 - 1558 |
Volatilization of mercury, arsenic and selenium during underground coal gasification
Liu SQ, Wang YT, Yu L, Oakey J |
| 1559 - 1565 |
A comparison of adsorption isotherms using different techniques for a range of raw, water- and acid-washed lignites
Fei Y, Marshall M, Jackson WR, Chaffee AL, Allardice DJ |
| 1566 - 1578 |
A clean, efficient system for producing Charcoal, Heat and Power (CHaP)
Syred C, Griffiths AJ, Syred N, Beedie D, James D |
| 1579 - 1590 |
Enhancement of reforming efficiency by optimising the porous structure of reforming catalyst: Theoretical considerations
Szczygiel J |
| 1591 - 1598 |
The combustion of pulverised low grade lignite
Bosoaga A, Panoiu N, Mihaescu L, Backreedy RI, Ma L, Pourkashanian M, Williams A |
| 1599 - 1602 |
Oxygen transfer and catalytic properties of nickel iron oxides for steam reforming of methane
Sturzenegger M, D'Souza L, Struis RPWJ, Stucki S |
