Company Filing History:
Years Active: 1990
Title: The Innovations of Sinisa Ban in Biological Wastewater Treatment
Introduction
Sinisa Ban is a prominent inventor based in Zagreb, Yugoslavia, known for his significant contributions to wastewater treatment technologies. With a keen interest in biological degradation processes, Ban has developed innovative methods that address the challenges associated with complex, non-readily degradable wastewater constituents.
Latest Patents
Ban holds a patent for a novel "Process for the Biological Degradation of Complex, Non-Readily Degradable Wastewater Constituents." This pioneering method involves a two-stage process where the first stage includes acidification, followed by anaerobic degradation facilitated by methanogenic organisms in the second stage. The first stage utilizes acidogenic organisms combined with dehalogenating, desulfonating, and deaminating strains. Additionally, it introduces highly sub-stoichiometric quantities of oxygen either directly or through oxygen-yielding compounds, optimizing the degradation process. Both stages are effectively operated as fluidized-bed processes, which use supports to immobilize the biomass, thus enhancing efficiency.
Career Highlights
Sinisa Ban is associated with Bayer Aktiengesellschaft, a global leader in the life sciences sector. His role within the company highlights his commitment to advancing scientific research and innovation in environmental sustainability.
Collaborations
Throughout his career, Ban has worked alongside talented colleagues such as Margarete Glanser and Imre Pascik. Their collaborative efforts have played a crucial role in advancing wastewater treatment technologies and demonstrating the impact of teamwork in achieving groundbreaking innovations.
Conclusion
Sinisa Ban’s inventive approach to biological degradation processes reflects his dedication to solving critical environmental issues. His patent demonstrates a significant advancement in wastewater treatment, promising more sustainable methods for handling complex waste constituents. Through collaboration and innovative thinking, Ban continues to make a meaningful impact in the field of environmental science.