Christian Mårup Osmundsen

USPTO Granted Patents = 12 (Patent Applications = 3)

EPO Patents = 8 (Patent Applications = 15)

Average Co-Inventor Count = 2.8

ph-index = 1

Forward Citations = 33(Granted Patents)

Company Filing History:

Years Active: 2016-2025

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12 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 12344576 - Bed material for thermolytic fragmentation of sugars (2025-07-01),

2. 12227473 - Production of glycolaldehyde by thermolytic fragmentation (2025-02-18),

3. 11780798 - Method and a system for producing glycolic acid and/or glycolate (2023-10-10),

4. 11472761 - Production of glycolaldehyde by thermolytic fragmentation (2022-10-18),

5. 11384038 - Process for the preparation of ethylene glycol from sugars (2022-07-12),

6. 10875789 - Process for removing sulphur compounds from process streams (2020-12-29),

7. 10759726 - Process for the preparation of ethylene glycol from sugars (2020-09-01),

8. 10570078 - Thermolytic fragmentation of sugars (2020-02-25),

9. 9975113 - Process for the conversion of sugars to lactic acid and 2-hydroxy-3-butenoic acid or esters thereof comprising a metallo-silicate material and a metal ion (2018-05-22),

10. 9926247 - Process for the preparation of ethylene glycol from sugars (2018-03-27),

11. 9573123 - Process for the conversion of sugars to lactic acid and 2-hydroxy-3-butenoic acid or esters thereof comprising a metallo-silicate material and a metal ion (2017-02-21),

12. 9328048 - [object Object] (2016-05-03),

Title: Innovations by Christian Mårup Osmundsen: Pioneering Processes in Sugar Fragmentation

Introduction: Christian Mårup Osmundsen, an inventor based in Gentofte, Denmark, has made significant contributions to the field of sugar thermolytic fragmentation. With a portfolio of 12 patents, his work emphasizes improving industrial processes that lead to valuable chemical byproducts.

Latest Patents: Among his recent innovations, Osmundsen has developed two noteworthy patents. The first is a "Bed material for thermolytic fragmentation of sugars," which discusses a process for breaking down sugars into C-C oxygenates using heat-carrying particles. This invention aims to enhance yields and fluidization characteristics, making it ideal for large-scale production of substances like glycolaldehyde. The second patent, "Production of glycolaldehyde by thermolytic fragmentation," outlines a method for generating glycolaldehyde from carbohydrate feedstock, incorporating a system that supports continuous industrial operations. This process can handle feedstocks with impurities, including arsenic, lead, and sulfur compounds.

Career Highlights: Osmundsen has showcased his expertise while working with noted companies such as Haldor Topsoe A/S. His contributions to the field are characterized by innovative solutions aimed at optimizing chemical production for industrial applications.

Collaborations: Throughout his career, Osmundsen has collaborated with esteemed colleagues, including Esben Taarning and Morten Boberg Larsen. These partnerships have further enriched his inventive endeavors and supported the development of impactful technologies.

Conclusion: Christian Mårup Osmundsen stands out as a significant inventor in the domain of sugar thermolytic fragmentation. His patents not only contribute to academic knowledge but also pave the way for practical industrial applications that enhance chemical production efficiency. Through his work, Osmundsen continues to influence the field and drives forward the discussion on innovative approaches to chemical engineering.

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