Vow ASA has a total of 27 patents globally, out of which 16 have been granted. Of these 27 patents, more than 88% patents are active. The United States of America is where Vow ASA has filed the maximum number of patents, followed by Japan and Norway. Parallelly, Norway seems to be the main focused R&D centre and also is the origin country of Vow ASA.
Vow ASA was founded in 1993. Vow ASA creates and develops methods for cleaning wastewater. For a variety of land-based and marine applications, the company provides technology and solutions that clean wastewater and transform biomass into resources and renewable energy. As of February 2023, the market cap of Vow ASA is $234.35 Million.
Do read about some of the most popular patents of Vow ASA which have been covered by us in this article and also you can find Vow ASA patents information, the worldwide patent filing activity and its patent filing trend over the years, and many other stats over Vow ASA patent portfolio.
How many patents do the CEO of Vow ASA have?
The CEO Henrik Badin have 0 patents.
How many patents does Vow ASA have?
Vow ASA has a total of 27 patents globally. These patents belong to 8 unique patent families. Out of 27 patents, 24 patents are active.
How Many Patents did Vow ASA File Every Year?
Are you wondering why there is a drop in patent filing for the last two years? It is because a patent application can take up to 18 months to get published. Certainly, it doesn’t suggest a decrease in the patent filing.
|Year of Patents Filing or Grant||Vow ASA Applications Filed||Vow ASA Patents Granted|
How many Vow ASA patents are Alive/Dead?
How Many Patents did Vow ASA File in Different Countries?
Countries in which Vow ASA Filed Patents
|United States Of America||4|
Where are Research Centers of Vow ASA Patents Located?
List of Vow ASA patents
|US11053443B2||Microwave Pyrolysis Reactor|
|US9321964B2||Method And Apparatus For The Energy Densification Of A Material In The Form Of Divided Solids, With A View To Obtaining Pyrolysis Oils For Energy Purposes|
|US20210301208A1||Microwave Pyrolysis Reacto|
|US20210106970A1||Microwave Pyrolysis Reactor|
|EP3856871B1||Microwave Pyrolysis Reactor|
|EP3601481B1||Microwave Pyrolysis Reactor|
|EP3601482B1||Microwave Pyrolysis Reactor|
|CN112639056B||Microwave Pyrolysis Reactor|
|CN110662820B||Microwave Pyrolysis Reactor|
|CN110651025B||Microwave Pyrolysis Reactor|
|WO2020064598A1||Microwave Pyrolysis Reactor|
|WO2018177994A1||Microwave Pyrolysis Reactor|
|WO2018177997A1||Microwave Pyrolysis Reactor|
|DE602019017579T2||Microwave Pyrolysis Reactor|
|DE602018008972T2||Microwave Pyrolysis Reactor|
|DE602018008974T2||Microwave Pyrolysis Reactor|
|NO345739B1||Microwave Pyrolysis Reactor Iv|
|NO345369B1||Microwave Pyrolysis Reactor I|
|JP7128882B2||Microwave Pyrolysis Reactor|
|JP7064570B2||Microwave Pyrolysis Reactor|
|JP2022502520A||Microwave Pyrolysis Reactor|
|CA3106688A1||Microwave Pyrolysis Reactor|
|CA3061184A1||Microwave Pyrolysis Reactor|
|KR1020210093841A||Microwave Pyrolysis Reactor|
|KR1020190141158A||Microwave Pyrolysis Reactor|