Abstract № | Speaker | Country | Organization | Session | Title | Status |
2 | Xiaotong Zhou | China | Guangdong Institute of Resources Comprehensive Utilization | 3. Physical enrichment – gravity, magnetic and electrostatic separation | NEW PROCESSING TECHNOLOGY RESEARCH FOR THE MAGNETIC SEPARATION APPLICATION ON COPPER-SULFUR ORE BENEFICIATION | PAID |
22 | iRINEU BRUM | Brazil | Federal University of Rio Grande do Sul | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | FLOTATION REAGENT SYSTEM TO FINE FRACTION OF THE MOATIZE COAL/MOZAMBIQUE | PAID |
25 | Vladislava Ignatkina | Russia | National University of Science and Technology “MISiS” | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | FLOTATION OF TENNANTITE FROM PYRITE COPPER-BEARING ORES | PAID |
31 | Cao Fei | China | Jiujiang University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | STUDY ON DESIGN, SYNTHESIS AND FLOATION PERFORMANCE OF O-ISOPROPYL-N-BENZYL THIONOCARBAMATE | PAID |
42 | Anton Mushketov | Russia | JSC “Uralmekhanobr” | 3. Physical enrichment – gravity, magnetic and electrostatic separation | CSCHEME FOR OBTAINING IRON HIGH-QUALITY IRON CONCENTRATE FOR SUBSEQUENT METALLIZATION WITH REFERENCE TO A MIXTURE OF ORES OF THE SOKOLOVSKO-SARBAYSKY MINING-AND-PROCESSING INTEGRATED WORKS (REPUBLIC OF KAZAKHSTAN) |
|
49 | Anna Matushkina | Russia | OJSC «Uralmekhanobr» | 1. Technological mineralogy | PHYSICO-CHEMICAL BASES OF PROCESSES OF THERMAL PROCESSING OF RESISTANT GOLD ORES | PAID |
51 | Anton Klyushnikov | Russia | OJSC «Uralmekhanobr» | 6. Hydro- and bio-hydrometallurgy | DEVELOPMENT OF HYDROMETALLURGICAL TECHNOLOGY FOR TREATMENT OF OXIDIZED GOLD-BEARING ORES OF KOCHKOVSKOE DEPOSIT |
PAID |
57 | Nadezhda Medyanik | Russia | Nosov Magnitogorsk State Technical University | 7. Environmental problems and recycling of mineral-containing waste products | THE GOLD AND SILVER RECOVERY FROM REFRACTORY FLOTATION TAILINGS OF COPPER-PYRITE DEPOSITS BY THERMOCHEMICAL METHOD | |
62 | Nadezhda Medyanik | Russia | Nosov Magnitogorsk State Technical University | 7. Environmental problems and recycling of mineral-containing waste products | THE TECHNOLOGY OF MINING PLANTS OF COPPER-PYRITE COMPLEX HYDROTECHNOGENIC FORMATIONS SELECTIVE PROCESSING | |
63 | Mingfei He | China | Guangdong Institute of Resources Comprehensive Utilization | 6. Hydro- and bio-hydrometallurgy | STUDY OF LEACHING KINETICS OF EXTRACTED INDIUM FROM ZINC OXIDE | PAID |
67 | Ahmad Hassanzadeh | Turkey | Istanbul Technical University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | A NOVEL STATISTICAL INSIGHT TO MODELING OF FLOTATION KINETICS | PAID |
68 | Pengyu Zhang | China | Central South University | 1. Technological mineralogy | FLOTATION PROCESS OPTIMIZATION BASED ON MINERALOGICAL ANALYSIS | PAID |
69 | Siwei Li | China | Centre South University | 9. Pillarization, agglomeration and sintering | STRENGTHEN THE SEPARATION OF IRON AND SLAG BY CO-REDUCTION OF HIGH-MANGANESE AND HIGH-ALUMINUM IRON ORES | PAID |
75 | Yuan Tang | China | Northeastern University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | INTERACTIVE EFFECTS IN MINERAL FLOTATION PROCESS | |
82 | Zhu yimin | China | Hunan Research Institute of Non-ferrous Metals | 5. Processing of fines and slimes | FLOTATION SEPARATION RESEARCH ON A CARBON-CONTAINING REFRACTORY COPPER-MOLYBDENUM ORE | PAID |
83 | Zhu yimin | China | Hunan Research Institute of Non-ferrous Metals | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | RESEARCH ON A NEW TECHNOLOGY FORLOW-GRADE OF HIGH SULFUR BAUXITE FLOTATION | PAID |
86 | Larissa Semushkina | Kazakhstan | Institute of Metallurgy and Ore Beneficiation | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | PROCESSING OF FLOTATION TAILINGS FROM BENEFICATION BY USING MODIFIED FLOTATION REAGENTS | PAID |
88 | Wei Yao | China | Wuhan University of Science andTechnology | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | RESEARCH ON RECOVERY OF AGLESITE FROM LEAD-SILVER RESIDUES USING A NEW COLLECTOR | PAID |
92 | Rui Cui | China | Wuhan University of Science and Technology | 3. Physical enrichment – gravity, magnetic and electrostatic separation | IMPROVEMENT IN QUALITY OF PYRITE CONCENTRATE BY LOW COST FLOTATION-GRAVITY SEPARATION FLOWSHEET AT FANKOU MINE | |
97 | Sabira Narbekova | Kazakhstan | “Institute of Metallurgy and Ore Beneficiation” JSC | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | CALCIUM POLYSULPHIDE AS A SULFIDIZATOR AT FLOTATION OF THE OXIDIZED LEAD–BEARING ORE | PAID |
111 | Dong Ping | China | Xi’an University of Architecture and Technology | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | INFLUENCE OF REAGENT SPECIES ON GOLD FLOTATION EFFECT OF GRAVITY TAILINGS | |
118 | Takaaki Wajima | Japan | Chiba University | 7. Environmental problems and recycling of mineral-containing waste products | LEAD IMMOBILIZATION IN ARTIFICIAL CONTAMINATED SOIL USING SULFUR-IMPREGNATED CARBONACIOUS MATERIAL DERIVED FROM RICE STRAW | PAID |
121 | Jiwei Lu | China | Northeastern University | 3. Physical enrichment – gravity, magnetic and electrostatic separation | THE SEPARATION OF PENTLANDITE FROM SERPENTINE USING SELECTIVE MAGNETIC COATING-MAGNETIC SEPARATION | |
129 | Evgeniya Ashirbaeva | Russia | National University of Science and Technology “MISIS” | 6. Hydro- and bio-hydrometallurgy | BIOTECHNOLOGICAL METHOD OF OBTAINING HIGH-QUALITY IRON CONCENTRATES | PAID |
131 | Galina Pahomova | Russia | NUST MISIS | 3. Physical enrichment – gravity, magnetic and electrostatic separation | НОВЫЕ ТЕХНОЛОГИЧЕСКИЕ РЕШЕНИЯ ДЛЯ ПЕРЕРАБОТКИ ТРУДНООБОГАТИМЫХ СВИНЦОВО-ЦИНКОВЫХ РУД. (NEW TECHNOLOGICAL SOLUTIONS FOR PROCESSING OF HARD-TO-TREAT LEAD-ZINC ORE) |
PAID |
133 | Igor Babich | Russia | NUST MISIS | 3. Physical enrichment – gravity, magnetic and electrostatic separation | USING COGNITIVE GRAPHICS FOR OPTIMIZATION OF TECHNOLOGICAL ESTIMATION OF ORE OF DEPOSITS OF SOLID MINERAL RESOURCES IN THE PERIOD OF THEIR GEOLOGICAL STUDY (ИСПОЛЬЗОВАНИЕ КОГНИТИВНОЙ ГРАФИКИ ДЛЯ ОПТИМИЗАЦИИ ТЕХНОЛОГИЧЕСКОЙ ОЦЕНКИ РУД МЕСТОРОЖДЕНИЙ ТВЕРДЫХ ПОЛЕЗНЫХ ИСКОПАЕМЫХ В ПЕРИОД ИХ ГЕОЛОГИЧЕСКОГО ИЗУЧЕНИЯ) | PAID |
137 | Petteri Halli | Finland | Aalto University | 6. Hydro- and bio-hydrometallurgy | LEACHING BEHAVIOR OF CU, BI AND SB FROM TROF FURNACE DORÉ SLAG DURING MINERAL ACID LEACHING | PAID |
142 | Duy Anh Dao | Vietnam | Vietnam National Institute of Mining-Metallurgy Science and Technology | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | ENRICHMENT OF LEPIDOLITE AND PRODUCING LITHIUM COMPOUNDS FROM LITHIUM ORE IN CENTRAL OF VIETNAM | PAID |
144 | Elham Nemattolahi | Iran | Shahid Bahonar University of Kerman | 2. Comminution & classification | AN INVESTIGATION OF FEED BOX SHAPE EFFECTS ON CONE CRUSHER PERFORMANCE BY DISCRETE ELEMENT METHOD (DEM) THE SARCHESHMEH COPPER COMPLEX CONE CRUSHER CASE | |
145 | Zahra Bibak | Iran | Shahid Bahonar University of Kerman | 2. Comminution & classification | AN INVESTIGATION OF PARTICLE SHAPE EFFECTS ON LOAD MOVEMENT IN TUMBLING MILLS BY DISCRETE ELEMENT METHOD (DEM) | |
146 | Gholamabbas Parsapour | Iran | Vali-E-Asr University of Rafsanjan | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | INCREASING FINAL CONCENTRATE GRADE OF THE SARCHESHMEH COPPER COMPLEX FLOTATION CIRCUIT BY FLOWSHEET MODIFICATION | |
153 | Yongliang Wang | China | Institute of Process Engineering, Chinese Academy of Sciences | 6. Hydro- and bio-hydrometallurgy | ALKALINE PRESSURE OXIDATION LEACHING OF ARSENIC FROM GOLD CONCENTRATE IN LOWER TEMPERATURE | PAID |
153 | Yongliang Wang | China | Institute of Process Engineering, Chinese Academy of Sciences | 6. Hydro- and bio-hydrometallurgy | ALKALINE PRESSURE OXIDATION LEACHING OF ARSENIC FROM GOLD CONCENTRATE IN LOWER TEMPERATURE | PAID |
154 | Ildar Mukhametshin | Russia | JSC RPC BASHKIRSKAYA GOLD MINING COMPANY | 6. Hydro- and bio-hydrometallurgy | BIOHYDROMETALLURGICAL EXTRACTION OF NON-FERROUS AND NOBLE METALS FROM PRIMARY MINERAL ORES AND SPENT STACKS OF HEAP LEACHING OF OXIDED ORES | PAID |
156 | Algis Makavetskas | Russia | National University of Science and Technology “MISIS” | 1. Technological mineralogy | MINERALOGICAL INVESTIGATIONS OF GARNISHAGE AND LOADING IN THE HILL OF THE BLAST FURNACE | PAID |
158 | Jinxia Zhang | China | North China University of Science and Technology | 6. Hydro- and bio-hydrometallurgy | KINETICS ANALYSIS AND LEACHING PERFORMANCE OF ZINC EXTRACTION FROM ZINC-CONTAINING METALLURGICAL DUST | |
159 | Claudia Glaser | Germany | BTU Cottbus-Senftenberg, LS Aufbereitung | 7. Environmental problems and recycling of mineral-containing waste products | EXPERIMENTAL STUDIES OF THE PELLETIZING-FLOCCULATION PROCESS OF IRON-HYDROXIDE CONTAINING SUSPENSIONS IN A TAYLOR-COUETTE-REACTOR | |
160 | qianzhibo | China | BGRIMM | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | RESEARCH ON EFFECT AND MECHANISM OF A NEW DEPRESSANT FOR GALENA IN THE SEPARATION OF CHALCOPYRITE AND GALENA | |
165 | DonWoo Lee | South Korea | Seoul National University | 2. Comminution & classification | PREDICTION OF LIBERATION EFFICIENCY BASED ON THE COMBINED GRINDING AND LIBERATION MODEL | PAID |
185 | Ersin Yazici | Turkey | KTU | 6. Hydro- and bio-hydrometallurgy | THIOSULPHATE LEACHING OF GOLD/SILVER FROM A COPPER-BEARING PYRITIC GOLD CONCENTRATE | |
189 | Natalia Algebraistova | Russia | Siberian Federal University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | BIOLOGICAL PROCESSING OF FLOTATION BULK CONCENTRATE BEFORE SELECTION CIRCUIT | PAID |
199 | Wantae Kim | South Korea | Korea Institute of Geoscience and Mineral Resources | 3. Physical enrichment – gravity, magnetic and electrostatic separation | REMOVAL OF MICROCRYSTALLINE OPALINE SILICA FROM BENTONITE BY ULTRASONIC TREATMENT | PAID |
205 | Fardis Nakhaei | Iran | Department of Mining & Metallurgical Engineering, Amirkabir University of Technology, Tehran, Iran | 5. Processing of fines and slimes | EFFECT OF FLOTATION COLUMN OPERATING PARAMETERS ON BENEFICATION OF IRON ORE SLIMES USING EXPERIMENTAL DESIGN | |
206 | Fardis Nakhaei | Iran | Department of Mining & Metallurgical Engineering, Amirkabir University of Technology, Tehran, Iran | 8. Process modeling | RELATIONSHIP AMONG FROTH BEHAVIOR, OPERATING PARAMETERS AND PERFORMANCE FACTORS OF FLOTATION COLUMN | |
210 | LI Chun-feng | China | Beijing Research Institute of Chemical Engineering and Metallurgy | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | STUDY ON SURFACE CHARACTERISTICS OF PITCHBLENDE AND URANINITE | PAID |
211 | XIAOMING WANG | China | Beijing General Research Institute of Mining&Metallurgy | 3. Physical enrichment – gravity, magnetic and electrostatic separation | APPLICATION OF MAGNETIC SEPARATOR WIHT ROTATING MAGNETIC FIELD FOR DRY PRE-CONCENTRATION OF FINE PARTICLE MAGNETITE | |
217 | Xue Kai | China | Central South University | 7. Environmental problems and recycling of mineral-containing waste products | NEW TECHNOLOGY OF COMPREHENSIVELY RECYCLING OF SPENT MAGNESIA-CHROME REFRACTORIES | PAID |
236 | Alena Kanarskaya | Russia | National University of Science and Technology “MISIS” | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | MULTIFACTOR SYSTEM OF INTENSIFICATION OF FLOTATION ENRICHMENT OF THE POOR PLATINOMETAL RAW MATERIALS | PAID |
237 | Anthony Geneyton | France | University of Lorraine – Laboratoire Georessources | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | INFLUENCE OF MONAZITE CHEMISTRY ON CHEMICAL SURFACE PROPERTIES AND FATTY ACIDS COLLECTORS ADSORPTION | PAID |
241 | Fusheng Niu | China | North China University of Science and Technology | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | EFFECT OF HYDRAULIC CONDITIONS ON THE FLOCCULATION PROCESS OF FINE HEMATITE FLOCCULANTS | |
245 | Yuriy Brylyakov | Russia | ЕвроХим – Научно-исследовательский центр | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | DEVELOPMENT OF REAGENT REAGIME FOR FLOTATION OF APATITE-STAFFELITE ORES | |
247 | Milind Chikhale | India | Fluor Daniel India Pvt. Ltd. | 5. Processing of fines and slimes | A UNIQUE PROCESS FOR THE PRODUCTION OF SULPHATE OF POTASH (SOP) FROM A COMBINATION OF THREE ORES | |
256 | Danielle Rocha | USA | Colorado School of Mines | 2. Comminution & classification | METHODOLOGY TO PREDICT PERFORMANCE OF A VERTICAL STIRRED MILL USING A BOND BALL MILL | PAID |
268 | Prashant Dixit | India | R&D, Tata Steel Ltd | 7. Environmental problems and recycling of mineral-containing waste products | SLIME WASTE TO BOOST AGRICULTURAL YIELD | |
278 | Marcela Gotelip Barbosa | France | ArcelorMittal Research | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | BARITE BEARING IRON ORE: A LITERATURE REVIEW AND MINERAL PROCESSING ASSESSMENT | |
281 | Lebogang Babedi | South Africa | Stellenbosch University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | IMPACTS OF CATION SUBSTITUTION ON THE GEOMETALLURGY OF SPHALERITE | PAID |
297 | Hailing Zhu | China | Central South University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | SELECTIVE INHIBITION OF POLYCARBOXYLIC ACIDS IN FLOTATION SEPARATION OF SCHEELITE FROM CALCITE | |
299 | zhangxingrong | China | BGRIMM | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | THE DESIGN OF ORGANIC MACROMOLECULAR DEPRESSANTS AND THEIR APPLICATIONS IN THE FLOTATION OF MINERALS SEPARATIONS | |
300 | Bogale Tadesse | Australia | Curtin University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | PICO-BUBBLE ENHANCED FLOTATION OF ULTRAFINE RARE EARTH BEARING MINERALS | PAID |
303 | Sergey Petrov | Russia | Joint-stock company “Irkutsk research institute of precious and rare metals and diamonds” | 6. Hydro- and bio-hydrometallurgy | RECOVERY OF FREE CYANIDE FROM THIOCYANATE WITH OZONE | PAID |
304 | liwenhua | China | central south university | 7. Environmental problems and recycling of mineral-containing waste products | A NOVEL TECHNOLOGY TO RECOVER COPPER FROM WASTE PRINTED CIRCUIT BOARDS | PAID |
305 | Jun Xiao | China | Hunan Research Institute for Non-ferrous Metals | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | RELATING MINEROLOGICAL CHARACTERISTICS OF A REFRACTORY COPPER-MOLYBDENUM ORE TO CU-MO FLOTATION SEPARATION | PAID |
310 | xiuxiang tao | CHINA | China University of Mining and Technology | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | STUDY ON THE PROCESS CHARACTERISTICS OF OILY-BUBBLES FLOTATION OF LOW RANK COAL | |
317 | Joseph Hamuyuni | Finland | Aalto University | 7. Environmental problems and recycling of mineral-containing waste products | INVESTIGATING SIMULTANEOUS RECOVERY OF METALS AND ACID FROM PICKLING ACID CIRCULATION | |
321 | Jason Yang | Finland | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | BENEFICIATION STUDIES OF A RARE EARTH ORE FROM THE OLSERUM DEPOSIT | PAID | |
324 | RAN Hongxaing | China | Beijing General Research Institute of Mining and Meatllurgy | 3. Physical enrichment – gravity, magnetic and electrostatic separation | DEVELOPMENT AND APPLICATION OF PVMVERTICAL RING HIGH-GRADIENT HIGH-INTENSITY PERMANENT MAGNETIC SEPARATOR | |
326 | Willy Kracht | Chile | Department of Mining Engineering, Universidad de Chile | 8. Process modeling | UNDERSTANDING THE EFFECT OF ORE HARDNESS VARIABILITY ON THE INTEGRATION OF SOLAR ENERGY INTO THE OPERATION OF A SEMI-AUTOGENOUS GRINDING MILL | |
338 | Leopoldo Gutierrez | Chile | University of Concepcion | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | COMPARISON OF THE FLOTATION OF ENARGITE USING FRESH AND SEAWATER | PAID |
343 | Ping Yu | Australia | the Univ. of Queensland | 2. Comminution & classification | A CONSOLIDATED SUMMARY ON THE MECHANISTIC MODELLING FOR TUMBLING MILLS | |
350 | Kunal Mathanker | India | TATA STEEL | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | IMPROVING FROTH FLOTATION YIELD BY INTRODUCING OUTOTEC’S FLOAT FORCE MECHANISM AT TATA STEEL COAL WASHERY | |
351 | Mikhail Tiunov | Russia | АО “”Иргиредмет | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | FLOTATION OF IRON-BEARING TUNGSTEN MINERALS AND MICA FROM GRAVITY TAILINGS OF RARE-METAL ORES PROCESSING | |
359 | Arkady Senchenko | Russia | TOMS Institute | 2. Comminution & classification | COMPARISON OF TWO METHODS ESTIMATING SPECIFIC ENERGY AND THROUGHPUT OF REGRIND BALL MILLS | PAID |
360 | Arkady Senchenko | Russia | TOMS Institute | 6. Hydro- and bio-hydrometallurgy | ALBION PROCESS CAPABILITIES FOR PROCESSING OF FEED MATERIALS DIFFERENT IN THEIR COMPOSITION | PAID |
362 | Arkady Senchenko | Russia | TOMS Institute | 6. Hydro- and bio-hydrometallurgy | INNOVATIVE TECHNOLOGY FOR INTEGRATED PROCESSING OF OXIDIZED NICKEL ORES | PAID |
364 | George Abaka-Wood | Australia | Future Industries Institute, University of South Australia | 3. Physical enrichment – gravity, magnetic and electrostatic separation | MAGNTIC SEPRATION AS A POTENTIAL TECHNIQUE FOR UPGRADING OF RARE EARTH OXIDES FROM LOW GRADE TAILINGS | |
373 | Qingbo Meng | China | Guangdong Institute of Resources Comprehensive Utilization | 3. Physical enrichment – gravity, magnetic and electrostatic separation | BENEFICIATION STUDIES ON A LOW GRADE COMPLEX LITHIUM POLYMETALLIC ORE | |
399 | Christie Dorfling | South Africa | Stellenbosch University | 7. Environmental problems and recycling of mineral-containing waste products | EVALUATING THE CURRENT STATUS OF METAL PRODUCTION FROM SECONDARY RESOURCES IN SOUTH AFRICA | PAID |
416 | Willy Kracht | United Kingdom | Department of Earth Science and Engineering, Royal School of Mines, Imperial College London | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | EFFECT OF FROTHER TYPE ON CLAY-RICH FROTH BEHAVIOR | |
429 | zhenguosong | China | Beijing General Research Institute of Mining & Metallurgy,State Key Laboratory of Mineral Processing | 7. Environmental problems and recycling of mineral-containing waste products | LABORATORY TEST STUDY AND PRODUCTION PRACTICE ON COMPREHENSIVE UTILIZATION OF NONMETALLIC MINERALS IN NONFERROUS METAL MINE TAILINGS | |
437 | Mauricio Bergerman | Brazil | University of Minas Gerais | 2. Comminution & classification | DEVELOPMENT OF A LABORATORY TEST TO DESIGN VERTICAL STIRRED MILLS FOR IRON ORE REGRIND CIRCUITS | PAID |
445 | Shuai Wang | China | Central South University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | A COMPOSITE THIONOCARBAMATE AND MERCAPTAN COLLECTOR: SYNTHESIS AND FLOTATION PERFORMANCE TO CHALCOPYRITE | PAID |
452 | Jihua Zhai | China | Central South University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | EVALUATION OF SATURATED FATTY ACIDS AS THE COLLECTORS IN ILMENITE FLOTATION SYSTEM | |
453 | Fengnian Shi | Australia | The University of Queensland | 3. Physical enrichment – gravity, magnetic and electrostatic separation | HIGH VOLTAGE PULSE PRETREATMENT OF ORES | |
457 | Ekin Turku Temel | Turkey | Middle East Technical University | 2. Comminution & classification | EVALUATION OF THE PERFORMANCE OF A PLANT- SCALE COMMINUTION CIRCUIT VIA LAB-SCALE AND COMPUTER-BASED MEASUREMENTS | |
468 | Hamid-Reza Manouchehri | Sweden | Sandvik Mining and Rock Technology | 2. Comminution & classification | TOWARDS ECO-EFFICIENCY IN COMMINUTION BY PUSHING CRUSHING PERFORMANCE: CONE CRUSHER VS VSI | PAID |
489 | Douglas Mazzinghy | Brazil | UFMG | 2. Comminution & classification | LOAD TORQUE ESTIMATION FOR MONITORING GRINDING PARAMETERS | |
522 | Denis Bogdanovich | Russia | Irkutsk National Research Technical University | 1. Technological mineralogy | APPLICATION OF EMS-IP TECHNOLOGY FOR SEARCH OF POLYMETALLIC ORES AND KIMBERLITE TUBES OF EXPLOSION | |
536 | Dong Ganguo | China | Beijing General Research Institute of mining and metallurgy | 6. Hydro- and bio-hydrometallurgy | A NEW TYPE OF 700 M3 BIO-OXIDATION REACTOR FOR REFRACTORY GOLD CONCENTRATE | |
538 | JIE LIU | China | Northeastern University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | INVESTIGATION OF THE INFLUENCES OF CITRIC ACID ON THE FLOTATION BEHAVIOR OF CASSITERITE | |
544 | shenzhengchang | China | Beijing General Research Institute of Mining &Metallurgy | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | THE RESEARCH OF RESIDENCE TIME DISTRIBUTION OF DIFFERENT PARTICLE SIZES IN FLOTATION CELL UESING EXPERIMENT AND CFD SIMULATION | |
559 | Divya Jyoti | India | Indian Institute of Technology (ISM), Dhanbad | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | RELEASE ANALYSIS OF LOW VOLATILE COKING (LVC) COAL FINES | |
593 | Karim Tabatabaei | Iran | FMS (Fakoor Meghnatis Spadana) | 9. Pillarization, agglomeration and sintering | A COMPARATIVE EVALUATION ON THE EFFECT OF CHROME PLATED ROLLERS ON THE SCREENING PERFORMANCE OF PELLETIZING ROLLER SCREENS | |
595 | Belinda McFadzean | South Africa | University of Cape Town | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | INTEGRATING COMPUTATIONAL MODELING WITH EXPERIMENTAL ENTHALPY OF ADSORPTION: A XANTHATE-PYRITE SYSTEM | PAID |
598 | Gaoyun Zhou | China | Beijing General Research Institute of Mining &Metallurgy | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | STUDY ON FLOTATION PROPERTIES AND BIODEGRADABILITY OF AN EFFICIENT FROTHER | |
601 | Haijie Li | Denmark | FlSmidth A/S | 2. Comminution & classification | DYNAMIC MODELING AND OPTIMIZATION OF THE SAG MILL-PEBBLE CRUSHER CIRCUIT | PAID |
614 | Leopoldo Gutierrez | Chile | University of Concepcion | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | EVALUATION OF DISPERSANTS ON THE FLOATABILITY OF MOLYBDENITE IN SEAWATER USING INDUCTION TIME MEASUREMENTS | PAID |
623 | Chenyang Zhang | China | Central South University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | COMPUTATIONAL INSIGHTS INTO THE INTERACTION MECHANISM OF FLOATATION REAGENTS WITH CHALCOPYRITE AND HIGH-THROUGHPUT SCREENING FLOATATION REAGENT FOR COPPER ORES | PAID |
627 | Xianbo Li | China | Guizhou University | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | EFFECT OF GRINDING METHOD ON FLOTATION OF HIGH CARBON FLY ASH | |
629 | Georgios Anastasakis | Portugal | Instituto Superior Technico, University of Lisbon | 5. Processing of fines and slimes | AGGLOMERATION-ASSISTED SEPARATION OF FINE VALUE MINERAL PARTICLES FROM MINERAL GANGUE | PAID |
629 | Georgios Anastasakis | Greece | Instituto Superior Technico, University of Lisbon | 5. Processing of fines and slimes | AGGLOMERATION-ASSISTED SEPARATION OF FINE VALUE MINERAL PARTICLES FROM MINERAL GANGUE | PAID |
634 | Xianbo Li | China | Guizhou University | 7. Environmental problems and recycling of mineral-containing waste products | EFFECT OF PRETREATMENT TECHNOLOGY ON PREPARATION OF A-CALCIUM SULFATE HEMIHYDRATE FROM PHOSPHOGYPSUM | |
644 | Daniel Saramak | Poland | AGH University of Science and Technology | 7. Environmental problems and recycling of mineral-containing waste products | ANALYSIS OF DUST EMISSION FOR SELECTED CRUSHERS | PAID |
649 | Daniel Saramak | Poland | AGH University of Science and Technology | 2. Comminution & classification | POSSIBLE INCREASING OF ZINC RECOVERY FROM METALLURGICAL WASTE THROUGH CRUSHING OPERATIONS | PAID |
672 | Zhiyuan Ma | China | Guangdong institute of resources comprehensive utilization | 6. Hydro- and bio-hydrometallurgy | RESEARCH ON MICROWAVE ASSISTED LEACHING OF COPPER ANODE SLIME BASED ON THE TAGUCHI METHODS | PAID |
692 | Elena Shepeta | Russia | ИГД ДВО РАН | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | APPLICATION OF REAGENTS WITH THIOAMIDE GROUP IN FLOTATION OF COPPER-ARSENOPYRITE ORES | |
702 | Arash Tohry | Iran | yazd university | 2. Comminution & classification | AN EMPIRICAL MODEL FOR MEASURING THE AG MILL FILLING DEGREE, A CASE STUDY IN CHOGHART IRON OER PROCESSING PLANT | PAID |
728 | iRINEU BRUM | Brazil | Federal University of Rio Grande do Sul | 3. Physical enrichment – gravity, magnetic and electrostatic separation | CASE STUDY, STANDARDIZATION AND OPTIMIZATION OF ARTIFICIAL COLORING IN BLACK FOR ÁGATAS DO RIO GRANDE DO SUL | PAID |
748 | MA JIA | China | Beijing Research Institute of Chemical Engineering and Metallurgy, CNNC | 1. Technological mineralogy | STUDY ON PROCESS MINEROLOGY OF A URANIUM – MOLYBDENUM ASSOCIATED DEPOSIT | PAID |
775 | Anatoliy Kirnarski | Germany | Engineering Dobersek GmbH | 3. Physical enrichment – gravity, magnetic and electrostatic separation | UNIFUNCTIONALITY PRINCIPLE OF SEPARATING PROCESSES AND ITS PRACTICAL APPLICATION IN MINERAL PROCESSING | |
780 | Shuai Wang | China | Central South University | 6. Hydro- and bio-hydrometallurgy | RESEARCH ON MANGANESE CLEANER PRODUCTION TECHNOLOGIES | PAID |
800 | Abdelbaki BENMOUNAH | Algeria | Research Unit: Materials, Processes and Environment (UR-MPE), University M’Hamed Bougara Boumerdes, Algeria | 10. Dewatering | DEWATERING PROCESS AND ENVIRONMENT PROTECT IN DRILLING OPERATIONS. | |
803 | Massimo Maccagni | Italy | Engitec Technologies S.p.A. | 7. Environmental problems and recycling of mineral-containing waste products | AL WASTES MANAGEMENT: A CONCEPTUAL INTEGRATED APPROACH | PAID |
804 | Massimo Maccagni | Italy | Engitec Technologies S.p.A. | 7. Environmental problems and recycling of mineral-containing waste products | SECONDARY PB PROCESSING: IT’S TIME FOR ELECTROCHEMISTRY | PAID |
829 | Galina Mitrofanova | Russia | Mining Institute Kola Science Centre Russian Academy of Sciences | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | OXYETHYLATED COMPOUNDS AS REGULATORS OF SELECTIVE FLOTATION OF APATITE-CONTAINING ORE | |
836 | Indresan Govender | South Africa | University of Kwazulu-Natal | 2. Comminution & classification | A DEM INVESTIGATION OF THE MECHANISM GOVERNING IMPROVED GRINDING EFFICIENCY DUE TO PARTIAL REPLACEMENT OF BALL CHARGE BY PEBBLES | |
854 | Liming Lu | Australia | Commonwealth Scientific and Industrial Research Organisation | 9. Pillarization, agglomeration and sintering | EFFICIENT UTILISATION OF COARSE MAGNETITE CONCENTRATES IN SINTERING AND PELLETISING | PAID |
857 | Michael McClintock | Canada | University of British Columbia | 2. Comminution & classification | VALIDATION AND DEVELOPMENT OF BENCH SCALE TESTING FOR FULL SCALE HPGR | PAID |
857 | Michael McClintock | Canada | University of British Columbia | 2. Comminution & classification | VALIDATION AND DEVELOPMENT OF BENCH SCALE TESTING FOR FULL SCALE HPGR | PAID |
874 | Seyyed Mohammad Hossein Haddad | Iran | Fakoor Sanat Tehran Company | 10. Dewatering | INVESTIGATION ASPECTS OF FLOCCULATION PROCESS ON THE EFFICIENCY OF IRON TAILING THICKENING PROCESS | PAID |
876 | Alphonce Wikedzi | Germany | TU Bergakademie Freiberg, Institute of Mechanical Process Engineering and Mineral Processing | 2. Comminution & classification | COMMINUTION CHARACTERIZATION OF LITHIUM BEARING –MICA ORES FROM DIFFERENT DEVICES | |
876 | Alphonce Wikedzi | Germany | TU Bergakademie Freiberg, Institute of Mechanical Process Engineering and Mineral Processing | 2. Comminution & classification | COMMINUTION CHARACTERIZATION OF LITHIUM BEARING –MICA ORES FROM DIFFERENT DEVICES | |
879 | Jinzhou Qu | China | Xi’an University of Science and Technology | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | EFFECT OF PARTICLE SIZE ON WETTABILITY AND SURFACE ENERGY OF SHENDONG LOW RANK COAL | |
880 | Alphonce Wikedzi | Germany | TU Bergakademie Freiberg, Institute of Mechanical Process Engineering and Mineral Processing | 2. Comminution & classification | IMPROVING THE GRINDING PERFORMANCE THROUGH MODELLING AND SIMULATION: THE CASE OF BUZWAGI GOLD MINE (BGM) | |
918 | Adolph Mwale | South Africa | University of Cape Town | 2. Comminution & classification | FITTING THE FINE SCREEN MODEL TO INDUSTRIAL PLANT DATA | PAID |
923 | Leonid Chitalov | Russia | Saint-Petersburg Mining University | 2. Comminution & classification | AMENDMENT OF PHYSICO-MECHANICAL ORE PROPERTIES DETERMINATION METHODS FOR BALL GRINDING PROCESSES IN COMMINUTION CIRCUITS | PAID |
933 | Pablo Rafael BRITO PARADA | United Kingdom | Imperial College London | 3. Physical enrichment – gravity, magnetic and electrostatic separation | IMPACT: DEVELOPING MODULAR MOBILE PLANTS FOR SELECTIVE, LOW-IMPACT MINING OF SMALL HIGH-GRADE DEPOSITS | PAID |
937 | Huseyin Koca | Turkey | Anadolu University | 8. Process modeling | MODELLING OF GALENITE FLOTATION FROM A DISSAMINATED PB-ZN ORE USING CENTRAL COMPOSITE DESIGN METHOD | |
947 | Yuhua Wang | China | Central south university | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | STUDY ON CRYSTAL STRUCTURES, SURFACE PROPERTIES AND FLOTABILITIES OF SPODUMENE AND SILICATES | PAID |
962 | Jin.Liu | China | Guangdong Institute of Resources Comprehensive Utilization | 3. Physical enrichment – gravity, magnetic and electrostatic separation | EXPERIMENTAL STUDY ON PRE-DISCARDING TAILINGS FOR A LOW GRADE COMPLEX MUTI-METALS WO- MO-BI ORE | PAID |
972 | WU Caibin | China | Jiangxi University of Sicence and Technology | 2. Comminution & classification | THE CORRELATION OF PARTICLE SIZE DISTRIBUTIONS BETWWEN GROUND PRODUCT AND CLASSIFICATION UNDERFLOW | PAID |
974 | Ren Aijun | China | Beijing General Research Institute of Mining & Metallurgy | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | EXPERIMENTAL STUDY ON FLOTATION OF DEPRESSING CARBON ON LEAD-ZINC SULFIDE ORE CONTAINING CARBON | |
976 | Anton Mushketov | Russia | ОАО “Уралмеханобр” | 3. Physical enrichment – gravity, magnetic and electrostatic separation | CSCHEME FOR OBTAINING IRON HIGH-QUALITY IRON CONCENTRATE FOR SUBSEQUENT METALLIZATION WITH REFERENCE TO A MIXTURE OF ORES OF THE SOKOLOVSKO-SARBAYSKY MINING-AND-PROCESSING INTEGRATED WORKS (REPUBLIC OF KAZAKHSTAN) | |
977 | Cheng Liu | China | Jiangxi Copper Corporation | 4. Surface chemistry. Flotation fundamentals. Flotation reagents. Flotation technology | EFFECT OF SODIUM CARBONATE ON THE FLOTATION OF HEMIMORPHITE WITH THE ANIONIC COLLECTOR SODIUM OLEATE | |
1019 | Feng Chen | China | Central South University | 3. Physical enrichment – gravity, magnetic and electrostatic separation | PREPARATION OF DIRECT REDUCED IRON POWDER AND TI-V-RICH MATERIAL FROM VANADIUM TITANOMAGNETITE CONCENTRATE BY REDUCTION-MAGNETIC SEPARATION | PAID |
1023 | Dragan Milanovic | Serbia | Mining and Metallurgy Institute Bor | 6. Hydro- and bio-hydrometallurgy | CHEMICAL REFINING PROCESS FOR PB, AU AND AG RECOVERY BY TREATMENT OF A BIOLEACH SOLID RESIDUE FROM SEDEX TYPE ORE: PART 2 | PAID |
1028 | Olga Kachor | Russia | Federal State Budget Educational Institution of Higher Education “Irkutsk National Research Technical University | 7. Environmental problems and recycling of mineral-containing waste products | PROCESSING AND DISPOSAL OF ACCUMULATED ARSENIC RESIDUE DEPOSITS AND STOCKPILES FROM MINING | |
1031 | Anzor Abshilava | Georgia | ГТУ | 5. Processing of fines and slimes | OPTIMIZED COMBINED PROCESSING TECHNOLOGY FOR THE ACCUMULATED REFRACTORY COPPER ORE TAILINGS AT MADNEULI DEPOSIT | |
1051 | Michael Barsky | Israel | Ben Gurion Universiy | 3. Physical enrichment – gravity, magnetic and electrostatic separation | ON THE REGULARITIES OF CRITICAL REGIMES OF TWO-PHASE VERTICAL FLOWS | |
1052 | Michael Barsky | Israel | Ben Gurion Universiy | 3. Physical enrichment – gravity, magnetic and electrostatic separation | EQUIVALENCE OF THE EXTRACTION OF POURABLE MATERIALS OF VARIOUS SIZE CLASSES IN GRAVITATIONAL SEPARATION | |
1053 | Zeng-ling Wu | China | College of Zijin Mining, Fuzhou University | 6. Hydro- and bio-hydrometallurgy | CONTACT EFFECT ON BIOLEACHING OF COMPOSITE SULFIDE COPPER ORES |