Company Filing History:
Years Active: 2007-2014
Title: Mark A Ness: Innovator in Material Separation and Drying Technologies
Introduction
Mark A Ness is a notable inventor based in Underwood, North Dakota, with a remarkable portfolio of nine patents. His work primarily focuses on innovative methods and apparatuses for separating and concentrating various materials, which have significant applications in multiple industries.
Latest Patents
Among his latest patents is an "Apparatus and method of separating and concentrating organic and/or non-organic material." This invention features a fluidizing bed designed to segregate particulate by density and size. The apparatus includes a particulate receiving inlet, a fluidizing stream opening, and exits for both fluidized and non-fluidized particulate. Additionally, a conveyor system is integrated to transport non-fluidized particulate to its designated exit, while a collector box is utilized to receive this material. Another significant patent is the "Method of enhancing the quality of high-moisture materials using system heat sources." This invention employs fluidized bed drying technology and waste heat streams to dry feedstock, particularly coal, before it is processed in coal-fired power plants. The method enhances boiler efficiency and reduces emissions by pre-drying and separating feedstock in a low-temperature, open-air system.
Career Highlights
Mark A Ness is currently associated with Great River Energy, where he applies his expertise in material processing and energy efficiency. His innovative contributions have made a substantial impact on the efficiency of energy production and material handling.
Collaborations
He has collaborated with notable colleagues, including Matthew P Coughlin and John M Wheeldon, to further advance the technologies in which he specializes.
Conclusion
Mark A Ness stands out as a significant figure in the field of material separation and drying technologies. His inventions not only demonstrate his innovative spirit but also contribute to advancements in energy efficiency and environmental sustainability.