Company Filing History:
Years Active: 1992
Title: The Innovative Contributions of Aloys Dorr
Introduction
Aloys Dorr is a notable inventor based in Biblis, Germany. He has made significant contributions to the field of waste management, particularly in the treatment of radioactive waste water. His innovative approach addresses critical environmental challenges associated with nuclear waste.
Latest Patents
Aloys Dorr holds a patent for a "Process for the treatment of radioactive waste water." This process involves the treatment of waste water containing boron compounds and radionuclides. The method essentially vaporizes the waste water until dry, yielding a concentrate. By adding an excess of a long-chain primary alcohol, such as butyl alcohol, a reaction occurs that produces boric acid ester and an azeotropic mixture of water and alcohol. The azeotropic mixture, excess alcohol, and boric acid ester are then separated from the concentrate through distillation. The non-radioactive components are separated, leaving behind a radioactive residue that can be safely disposed of. The azeotropic mixture is subsequently separated back into water and alcohol, while the boric acid ester is saponified back into boric acid and alcohol. This innovative process allows for the recycling of alcohol and boric acid back into the treatment process and the nuclear reactor.
Career Highlights
Aloys Dorr is associated with Noell GmbH, where he has been instrumental in developing advanced technologies for waste treatment. His work has garnered attention for its potential to improve safety and efficiency in handling radioactive materials.
Collaborations
Aloys has collaborated with notable colleagues, including Uwe Kalberer and Klaus Rose. Their combined expertise has contributed to the advancement of innovative solutions in the field of waste management.
Conclusion
Aloys Dorr's contributions to the treatment of radioactive waste water exemplify the importance of innovation in addressing environmental challenges. His patented process not only enhances safety but also promotes sustainability in nuclear waste management.