CCP Technology GmbH has a total of 134 patent applications. It decreased the IP activity by 100.0%. Its first patent ever was published in 2012. It filed its patents most often in Germany, WIPO (World Intellectual Property Organization) and United States. Its main competitors in its focus markets basic materials chemistry, materials and metallurgy and chemical engineering are BRITISH GASU CORP, PEARSON TECHNOLOGIES INC and KELLOGG BROWN & ROOT LLC.
# | Country | Total Patents | |
---|---|---|---|
#1 | Germany | 15 | |
#2 | WIPO (World Intellectual Property Organization) | 14 | |
#3 | United States | 13 | |
#4 | Canada | 10 | |
#5 | EPO (European Patent Office) | 10 | |
#6 | China | 9 | |
#7 | Argentina | 7 | |
#8 | Australia | 5 | |
#9 | Taiwan | 5 | |
#10 | African Regional Industrial Property Organization | 3 | |
#11 | Brazil | 3 | |
#12 | EAPO (Eurasian Patent Organization) | 3 | |
#13 | Republic of Korea | 3 | |
#14 | Mexico | 3 | |
#15 | Singapore | 3 | |
#16 | South Africa | 3 | |
#17 | Chile | 2 | |
#18 | Colombia | 2 | |
#19 | Ecuador | 2 | |
#20 | Georgia | 2 | |
#21 | Israel | 2 | |
#22 | Morocco | 2 | |
#23 | New Zealand | 2 | |
#24 | Peru | 2 | |
#25 | Philippines | 2 | |
#26 | Tunisia | 2 | |
#27 | Uruguay | 2 | |
#28 | Hungary | 1 | |
#29 | Serbia | 1 | |
#30 | Ukraine | 1 |
# | Industry | |
---|---|---|
#1 | Basic materials chemistry | |
#2 | Materials and metallurgy | |
#3 | Chemical engineering | |
#4 | Environmental technology | |
#5 | Organic fine chemistry | |
#6 | Thermal processes |
# | Name | Total Patents |
---|---|---|
#1 | Kühl Olaf | 49 |
#2 | Kuhl Olaf | 38 |
#3 | Kuehl Olaf | 20 |
#4 | Olaf Kühl | 9 |
#5 | Olaf Dr Khl | 7 |
#6 | Kšhl Olaf | 2 |
#7 | Kühl Dr Olaf | 2 |
#8 | Ccp Technology Gmbh | 2 |
#9 | Olaf Kühl Dr | 2 |
#10 | Misselhorn Mark | 2 |
Publication | Filing date | Title |
---|---|---|
WO2017186482A1 | Method and device for producing syngas | |
DE102017000071A1 | Internal combustion engine with reduced NOx emissions | |
DE102016014362A1 | Plasma reactor and method of operating a plasma reactor | |
DE102016005188A1 | Process and apparatus for the production of synthesis gas | |
DE102015014007A1 | Apparatus and method for generating synthesis gas | |
TW201545973A | Method and apparatus for producing H2-rich synthesis gas and synthetic hydrocarbons | |
DE102015005519A1 | Electrode sealing arrangement for a plasma reactor | |
DE102015005610A1 | Apparatus and method for generating a synthesis gas | |
DE102014018471A1 | Hydrocarbon converter with a plasma torch and method for converting hydrocarbons | |
DE102014006996A1 | Process and apparatus for the production of synthetic hydrocarbons | |
DE102013020375A1 | PLASMA REACTOR FOR COLLIDING A HYDROCARBON FLUID | |
DE102013018074B3 | HIGH OVEN AND METHOD FOR OPERATING A HIGH-OPEN | |
DE102013013443A1 | C converter with filter function | |
DE102013010300A1 | Method for conveying highly viscous oils and / or bitumen | |
DE102013009993A1 | Blast furnace and method for operating a blast furnace | |
UA111519C2 | Process and a system for generating synthesis gas | |
DE102012010542A1 | METHOD AND APPARATUS FOR GENERATING SYNTHESEGAS |