At a shipyard, a ship to undergo ROH goes into a
drydock, which is then closed off from the sea. Water is evacuated from the drydock with keel blocks pre positioned under the
hull, so the ship's keel area will rest on the blocks as the water is pumped out. At the end of the ROH, the drydock is refilled with water so the ship can be re-floated and removed from the dock. To start ROH, operating procedures are used to shut down and cool down the propulsion
power plant to bring it to desired temperatures, pressures, and other conditions. During the ROH, ship's Navy crew stand shutdown watches, and civilian shipyard workers do much of the repair, maintenance, and installation work. Land-based
naval reactor prototype plants have also undergone similar refueling and overhauls, not at a shipyard but at whatever facility they are located.
Refueling In a nuclear-powered ship, the nuclear fuel is essentially a solid inside a reactor core which is inside the ship's
nuclear reactor. Once a reactor core has gone critical, meaning it has been used during a reactor operation, highly
radioactive nuclear fission products have formed in the core, and the core has become highly radioactive. Refueling involves taking the expended core out of the reactor and putting in a new core with fresh nuclear fuel. Because it is so radioactive, removing a core with spent nuclear fuel from a reactor requires elaborate radiological handling precautions. All materials that came in contact with the critical core, including the internal surfaces and
coolant water, are considered
radioactively contaminated and require special radiological handling and disposal precautions. In addition to radiological training and qualification required for working in radiation areas or with radioactive materials or contamination,
radiation exposure to workers is monitored to ensure exposure limits are not exceeded.
Overhaul The overhaul commonly includes extensive maintenance and renovation work and checks of various systems and equipment aboard the
ship. A major overhaul also typically includes upgrading various systems and equipment to modernize them; for example, old
analog electrical equipment may be replaced by new
digital electronic equipment. The work for such overhauls is typically planned out by
engineers well in advance and new equipment is obtained for any replacements or installations. An example of renovation work done during refueling and overhauls of submarines is the conversion of a
fleet ballistic missile submarine (SSBN) to a
guided missile submarine (SSGN). Such a conversion consists of taking the 24
ballistic missiles and their silos out of the missile section in the submarine, and replacing them with 154
Tomahawk cruise missiles and special operations force insertion platforms which can carry up to 66 special operations personnel. The first four s have undergone such conversions during their midlife refueling and overhauls. For more details, see . During an overhaul, an extensive testing program is conducted. Numerous test procedures that have been written are followed, data is recorded as required, and logs of the testing are kept. Tests that can be conducted include:
radiography to test critical
welds, testing of fluid systems and other pressure boundaries which includes
hydrostatic testing to detect any
leaks, and testing of electrical and mechanical setpoints for various types of equipment such as sensor input setpoints for various kinds of automatic trips and
safety valve relief pressure setpoints. At the finish of the ROH, the testing data records are bound and retained as a permanent documentation record resulting from the ROH. As the ship is readied, toward the end of the ROH, the power plant is warmed or brought back up to the desired
operating temperature and pressure so it can be started when ready. in a
Newport News Shipbuilding drydock in 1990 ==Refueling and Complex Overhaul==