It is also usable in a variety of diverse industries including manufacturing, energy, construction, agriculture, and more. Odyssey reduces the overall cost, risk of misplaced records, and time-consuming administrative tasks associated with traditional management methods.
It increases productivity and streamlines your workflow processes for more efficient management. Interested users can now try Odyssey free for 1 week with our new interactive demos. Gain access to the inventory tracking and personnel dosimetry modules and take a guided tour with instructions on how to upload and utilize your actual data into the software.
Dashboard Featuring a custom at-a-glance information relating to the account and location. Customizable widgets allow users to visualize pre-set metrics including read activity, ALARA status of wearers, a user watch list, recently added personnel and badges, and abnormal readings.
Vendor Matching Supports Landauer and Mirion dose data, which allows users to combine data from separate dosimetry suppliers into one comprehensive user profile.
Query Feature Users have the ability to find detailed information on personnel, badges, and doses on their dosimetry accounts.
Query results can be easily downloaded as CSV files and frequently used queries can be saved for future use. Relevant documents, such as those from registrations or surveys, can be directly uploaded to individual machines. Sites Sites have their own profile of contact and registration information.
View the machine inventory at each site in the system, as well as upload documents to specific locations. Sites Site profiles include contact information for the location and any devices and uploaded documents associated with it. Secondary sites can be added by authorized personnel to further structure the account beyond the primary site.
Devices Each device has its own profile with information, checkout, and QR tab. Checkout Devices can be checked out to different sites. The checkout will list the user who checked out the device and the time stamp of the checkout. Inventory Holdings List This section provides an inclusive table to information about radioactive material for the entire account. The current activity of the radioactive material is automatically calculated via its half-life.
Leak test results may be entered and linked to individual sources. The permission system for the inventory tracking, machine management, and equipment catalog modules. Permit Profile Each permit has a dedicated profile of information that includes authorized personnel, radioactive material, machines, and devices. Permit conditions, completed audits, and forms are also found on this profile. Authorized Condition Database Create and view authorized conditions included on permits.
Isotope activities of inventoried materials are calculated and updated in real-time. Track the training records of all personnel involved in radiation-related activities. The SafetyStratus Radiation Safety Module provides administrators with true cradle-to-grave management abilities for disposal of any hazardous materials and equipment.
This comprehensive tool covers all key areas associated with hazardous waste, including licenses, permits, orders, inventory, waste, assets, and training. An online, integrated platform to protect your team, reduce risk, and stay compliant.
The design uses three sets of hydraulic jacks to move a platform with six degrees of freedom and remarkable stability. Credit: Graphic by M. Share Facebook. Did You Know? Chernobyl is not the only nuclear disaster site benefitting from the RoboCrane technology.
The PaR Systems TensileTruss also serves as a remotely operated, submersible platform delivering tools for the cleanup of the Fukushima Daiichi nuclear power plant in Japan damaged in a tsunami. Radioactive elements form naturally, as a result of nuclear fission, and via intentional synthesis in nuclear reactors or particle accelerators.
Natural radioisotopes may remain from nucleosynthesis in stars and supernova explosions. Typically these primordial radioisotopes have half-lives so long they are stable for all practical purposes, but when they decay they form what are called secondary radionuclides.
For example, primordial isotopes thorium, uranium, and uranium can decay to form secondary radionuclides of radium and polonium. Carbon is an example of a cosmogenic isotope. This radioactive element is continually formed in the atmosphere due to cosmic radiation. Nuclear Fission. Nuclear fission from nuclear power plants and thermonuclear weapons produces radioactive isotopes called fission products.
In addition, irradiation of surrounding structures and the nuclear fuel produces isotopes called activation products. A wide range of radioactive elements may result, which is part of why nuclear fallout and nuclear waste are so difficult to deal with. The latest element on the periodic table have not been found in nature.
These radioactive elements are produced in nuclear reactors and accelerators. There are different strategies used to form new elements. Sometimes elements are placed within a nuclear reactor, where the neutrons from the reaction react with the specimen to form desired products.
Iridium is an example of a radioisotope prepared in this manner. In other cases, particle accelerators bombard a target with energetic particles. An example of a radionuclide produced in an accelerator is fluorine
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