近期论文

查看导师新发文章 （温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

ZHOU, H., HU, L., WAN, J., YANG, R., YU, X., LI, H., CHEN, J., WANG, L. and LU, X., 2016. Microwave-enhanced catalytic degradation of p-nitrophenol in soil using MgFe2O4: Chemical Engineering Journal Chemical Engineering Journal. 284, 54-60 POSTEL, S., SCHNEIDER, C. and WESSLING, M., 2016. Solvent dependent solute solubility governs retention in silicone based organic solvent nanofiltration: Journal of Membrane Science Journal of Membrane Science. 497, 47-54 NIZAMUDDIN, S., MUBARAK, N. M., TIRIPATHI, M., JAYAKUMAR, N. S., SAHU, J. N. and GANESAN, P., 2016. Chemical, dielectric and structural characterization of optimized hydrochar produced from hydrothermal carbonization of palm shell: Fuel Fuel. 163, 88-97 LAM, S. S., LIEW, R. K., JUSOH, A., CHONG, C. T., ANI, F. N. and CHASE, H. A., 2016. Progress in waste oil to sustainable energy, with emphasis on pyrolysis techniques: Renewable and Sustainable Energy Reviews Renewable and Sustainable Energy Reviews. 53, 741-753 LEE, C. S., BINNER, E., WINKWORTH-SMITH, C., JOHN, R., GOMES, R. and ROBINSON, J., 2016. Enhancing natural product extraction and mass transfer using selective microwave heating: Chemical Engineering Science Chemical Engineering Science. 149, 97-103 BUTTRESS, A. J., BINNER, E., YI, C., PALADE, P., ROBINSON, J. P. and KINGMAN, S. W., 2016. Development and evaluation of a continuous microwave processing system for hydrocarbon removal from solids CHEMICAL ENGINEERING JOURNAL. 283, 215-222 RENSHAW, R. C., ROBINSON, J. P., DIMITRAKIS, G. A., BOWS, J. R. and KINGMAN, S. W., 2016. Characterisation of potato crisp effective porosity using micro-CT: Journal of the Science of Food and Agriculture Journal of the Science of Food and Agriculture. 4440-4448 LEE, C. S., CHONG, M. F., ROBINSON, J. and BINNER, E., 2015. Optimisation of extraction and sludge dewatering efficiencies of bio-flocculants extracted from Abelmoschus esculentus (okra): Journal of Environmental Management Journal of Environmental Management. 157, 320-325 TIIKMA, L., JOHANNES, I., LUIK, H., LEPP, A. and SHARAYEVA, G., 2015. Extraction of oil from Jordanian attarat oil shale: Oil Shale Oil Shale. 32(3), 218-239 DING, R., ZHANG, H., LI, Y., WANG, J., SHI, B., MAO, H., DANG, J. and LIU, J., 2015. Graphene oxide-embedded nanocomposite membrane for solvent resistant nanofiltration with enhanced rejection ability: Chemical Engineering Science Chemical Engineering Science. 138, 227-238 ZHOU, F., CHENG, J., LIU, J., WANG, Z., ZHOU, J. and CEN, K., 2015. Improving the permittivity of Indonesian lignite with NaCl for the microwave dewatering enhancement of lignite with reduced fractal dimensions: Fuel Fuel. 162, 8-15 SAIT, H. H. and SALEMA, A. A., 2015. Microwave dielectric characterization of Saudi Arabian date palm biomass during pyrolysis and at industrial frequencies: Fuel Fuel. 161, 239-247 ZHANG, X., ZHANG, D., WANG, A. and GENG, Y., 2015. Transportation characteristics of gas-solid two-phase flow in a long-distance pipeline: Particuology Particuology. 21, 196-202 HAYDEN, S., GLASNOV, T. and KAPPE, C. O., 2015. Nafion-H-Catalyzed High-Temperature/High-Pressure Synthesis of a Triarylmethane in Continuous-Flow Mode: Chemical Engineering and Technology Chemical Engineering and Technology. 38(10), 1743-1748 HE, K., LOU, T., WANG, X. and ZHAO, W., 2015. Preparation of lignosulfonate-acrylamide-chitosan ternary graft copolymer and its flocculation performance: International Journal of Biological Macromolecules International Journal of Biological Macromolecules. 81, ASHLEY, B., LOVINGOOD, D. D., CHIU, Y. C., GAO, H., OWENS, J. and STROUSE, G. F., 2015. Specific effects in microwave chemistry explored through reactor vessel design, theory, and spectroscopy: Physical Chemistry Chemical Physics Physical Chemistry Chemical Physics. 17(41), 27317-27327 ROBINSON, JOHN, DODDS, CHRIS, STAVRINIDES, ALEXANDER, KINGMAN, SAM, KATRIB, JULIANO, WU, ZHIHENG, MEDRANO, JOSE and OVEREND, RALPH, 2015. Microwave Pyrolysis of Biomass: Control of Process Parameters for High Pyrolysis Oil Yields and Enhanced Oil Quality ENERGY & FUELS. 29(3), 1701-1709 BINNER, E. R., ROBINSON, J. P., SILVESTER, S. A., KINGMAN, S. W. and LESTER, E. H., 2014. Investigation into the mechanisms by which microwave heating enhances separation of water-in-oil emulsions FUEL. 116, 516-521 KAMARUDDIN M.J., E LESTER, NGUYEN N.T., DIMITRAKIS G.A., EL HARFI J., BINNER E.R., KINGMAN S.W., ROBINSON J.P. and IRVINE D.J., 2014. Continuous and direct 'in situ' reaction monitoring of chemical reactions via dielectric property measurement: Controlled polymerisation RSC Advances. NGUYEN N.T., GREENHALGH E., KAMARUDDIN M.J., EL HARFI J, CARMICHAEL K. and DIMITRAKIS G., 2014. Understanding the acceleration in the ring-opening of lactones delivered by microwave heating Tetrahedron. BINNER, E., MEDIERO-MUNOYERRO, M., HUDDLE, T., KINGMAN, S., DODDS, C., DIMITRAKIS, G., ROBINSON, J. and LESTER, E., 2014. Factors affecting the microwave coking of coals and the implications on microwave cavity design: Fuel Processing Technology Fuel Processing Technology. 125, 8-17 ADLINGTON, K., MCSWEENEY, R., DIMITRAKIS, G., KINGMAN, S. W., ROBINSON, J. P. and IRVINE, D. J., 2014. Enhanced 'in situ' catalysis via microwave selective heating: Catalytic chain transfer polymerisation: RSC Advances RSC Advances. 4(31), 16172-16180 ADLINGTON, K., MCSWEENEY, R., DIMITRAKIS, G., KINGMAN, S. W., ROBINSON, J. P. and IRVINE, D. J., 2014. Enhanced 'in situ' catalysis via microwave selective heating: Catalytic chain transfer polymerisation: RSC Advances RSC Advances. 4(31), 16172-16180 BINNER, E., MEDIERO-MUNOYERRO, M., HUDDLE, T., KINGMAN, S., DODDS, C., DIMITRAKIS, G., ROBINSON, J. and LESTER, E., 2014. Factors affecting the microwave coking of coals and the implications on microwave cavity design: Fuel Processing Technology Fuel Processing Technology. 125, 8-17 BINNER, E., MEDIERO-MUNOYERRO, M., HUDDLE, T., KINGMAN, S., DODDS, C., DIMITRAKIS, G., ROBINSON, J. and LESTER, E., 2014. Factors affecting the microwave coking of coals and the implications on microwave cavity design: Fuel Processing Technology Fuel Processing Technology. 125, 8-17