Physics & Technology
Assessment and Design of Technology & IP in the field of Applied Physics
Minoa Analytics offers assessment of existing as well as development of new innovative technology concepts for processes and equipment based on applied physics. The economic feasibility of the final solution is explicitly taken into account.
Assessment
- Model-based evaluation of the physics of novel concepts
- Qualitative evaluation of the strengths of innovative technologies
Creative consultancy
- Design of new processes starting from technical and economical constraints and opportunities
- Creation of a conceptual basis for establishing IP
Performance record (inventorship of patents)
Title | Application No., | IPC | IPC2 | IPC3 | IPC4 | IPC5 |
---|---|---|---|---|---|---|
METHOD OF MAGNETICALLY SEPARATING PARTICULATE MATERIALS,EP00900969,B03C1/24 | B03C1/247 | |||||
METHOD OF SEPARATING PARTICLES IN A FLUID MEDIUM AND AN APPARATUS THEREFOR,EP00964787,B03B5/10 | B29B17/02 | |||||
A METHOD AND DEVICE FOR THE SEPARATION OF PARTICLES,EP02711544,B03B5/10 | B03B5/24 | |||||
A METHOD FOR THE SEPARATION OF NON-FERROUS METAL CONTAINING PARTICLES FROM A PARTICLE STREAM,EP04721041,B03C1/247 | B03C1/18 | B03B9/06 | B03B9/04 | |||
METHOD AND DEVICE FOR THE SEPARATION OF PARTICLES,EP04721045,B03B5/60 | B03B5/64 | B03B5/36 | B03B5/28 | |||
Method and device for separating solid particles on the basis of a difference in density,EP06077210,B03C1/32 | B03C1/01 | |||||
Process and device for the separation of fragments of liberated ferrous scrap from not liberated ferrous scrap fragments by means of a static magnet,EP06117130,B03C1/22 | ||||||
A METHOD FOR TREATING BOTTOM ASH,EP06783935,B03B9/04 | C22B7/02 | C04B18/04 | ||||
APPARATUS FOR SEPARATING SOLIDS FROM A LIQUID,EP06824303,B03B5/22 | B03B5/24 | B03B11/00 | ||||
METHOD AND APPARATUS FOR THE SEPARATION OF SOLID PARTICLES HAVING DIFFERENT DENSITIES,EP09714410,B03C1/01 | B03C1/32 | |||||
METHOD AND APPARATUS FOR SEPARATING PARTS, IN PARTICULAR SEEDS, HAVING DIFFERENT DENSITIES,EP09715171,B03C1/01 | B03C1/32 | B03B5/30 | B03B5/44 | B03C1/033 | B03C1/28 | |
SEPARATION-APPARATUS,EP09726543,B07B13/10 | ||||||
Process and device for the separation of fragments of liberated ferrous scrap from not liberated ferrous scrap fragments by means of a static magnet,EP10155597,B03C1/22 | ||||||
Method and use of an apparatus for the separation of particles,EP10162915,B03B5/28 | B03B5/36 | B03B5/60 | B03B5/64 | |||
Separation apparatus,EP10171151,B07B13/10 | B07B13/11 | B07B13/16 | ||||
USE OF AN APPARATUS FOR SEPARATING MAGNETIC PIECES OF MATERIAL,EP10711946,B03C1/22 | ||||||
METHOD AND APPARATUS FOR SEPARATING A NON-FEROUS METAL-COMPRISING FRACTION FROM FERROUS SCRAP,EP10711948,C22B7/00 | B03C1/22 | |||||
SEPARATION APPARATUS,EP11736196,B07B4/00 | B07B13/10 | B07B13/11 | B07B13/16 | |||
EDDY CURRENT SEPARATION APPARATUS, SEPARATION MODULE, SEPARATION METHOD AND METHOD FOR ADJUSTING AN EDDY CURRENT SEPARATION APPARATUS,EP12707951,B03C1/247 | ||||||
A METHOD OF SEPARATING SCRAP, AND A DEVICE,EP12816372,B07C5/342 | ||||||
MAGNET AND DEVICE FOR MAGNETIC DENSITY SEPARATION,EP14715712,B03C1/28 | B03C1/033 | B03C1/01 | B03C1/32 | B03B5/30 | B03B5/44 | H01F7/02 |
IMPROVED MAGNETIC DENSITY SEPARATION DEVICE AND METHOD,EP14790760,B03C1/32 | B03C1/28 | |||||
SENSOR SEPARATION APPARATUS AND METHOD,EP15841080,B07C5/342 | B07C5/36 | |||||
SPLITTER FOR MAGNETIC DENSITY SEPARATION,EP16825583,B03C1/32 | ||||||
METHOD OF SEPARATING PARTICLES,EP17182187,B07B13/10 | ||||||
PROCESS AND APPARATUS FOR SCRAP METAL SCANNING,EP17817233,G01N23/204 | G01V5/00 | B03C1/00 | C22B1/00 | G01N21/71 | G01N21/85 | |
METHOD AND SYSTEM FOR PHOSPHATE RECOVERY FROM A STREAM,EP18716378,C02F1/52 | C02F3/28 | C01B25/37 | C02F101/10 | |||
METHOD AND APPARATUS FOR LIBERATING PARTICLES FROM MOIST MSWI ASH,EP18732165,B07B13/04 | B07B13/10 | B07B13/16 | B02C13/13 | B02C13/286 | ||
MAGNET AND DEVICE FOR MAGNETIC DENSITY SEPARATION,EP19215678,B03C1/32 | B03C1/033 | B03C1/28 | B03C1/01 | H01F7/02 | ||
METHOD AND SYSTEM TO CONVERT DEMOLISHED CONCRETE INTO A READILY RECYCLABLE PRODUCT,EP19828861,B09B3/00 | B03B9/06 | B09B5/00 | C04B18/16 | G06Q10/00 | C04B28/00 | C04B28/04 |
SEPARATION APPARATUS AND METHOD | APPARATUS AND METHOD FOR BRINGING ARTICLES IN A LAYER,EP19828874,B07C5/02 | |||||
SEPARATION APPARATUS WITH AFFINITY MODIFIER AND METHOD,EP20204129,B07C5/342 | B07C5/36 | B07C5/344 | ||||
STOCK SOLUTION,EP20715496,H01F1/44 | C22B3/10 | |||||
FERROFLUID,EP20725968,H01F1/44 | B03C1/033 | B03C1/28 | B03C1/32 | |||
APPARATUS AND METHOD FOR PICKING UP OBJECTS OFF A SURFACE,EP20730765,B07C5/344 | ||||||
METHOD AND SYSTEM FOR PHOSPHATE RECOVERY FROM A STREAM,EP23166436,C02F1/52 | C02F101/10 | C02F3/28 | C01B25/37 | |||
RECYCLING OF SCRAP,EP23173486,B07C5/36 | ||||||
RECYCLING OF SCRAP,EP23725851,B07C5/36 | ||||||
METHOD OF SEPARATING SCRAP PARTICLES, AND PARTICLE SEPARATION ASSEMBLY,EP23725853,B03C1/16 | B03C1/32 | |||||
Process for upgrading low-quality wood,EP94200024,B27K5/06 | B27K5/00 | |||||
METHOD AND APPARATUS FOR THE CONTINUOUS DEHYDRATION OF SLUDGE,EP97939257,C02F11/12 | F26B3/20 |