Mitsubishi APWR


The Mitsubishi advanced pressurized water reactor is a generation III nuclear reactor design developed by Mitsubishi Heavy Industries based on pressurized water reactor technology. It features several design enhancements including a neutron reflector, improved efficiency and improved safety systems. It has safety features advanced over the last generation, including a combination of passive and active systems. None are currently under construction.

History

The standard APWR is going through the licensing process in Japan and two are being constructed at the Tsuruga plant. The next APWR+ will be of a 1700 MWe power and have full MOX core abilities.
The US-APWR was developed by MHI to modify their APWR design to comply with US regulations. TXU selected the US-APWR for use at multiple sites, including the Comanche Peak Nuclear Generating Station.
However, in 2013, Mitsubishi slowed U.S. certification work, and the application to build two units at Comanche was suspended.
The reactors are intended for use in nuclear power plants to produce nuclear power from nuclear fuel.

Plant parameters

Electric Power1,700 MWe
Core Thermal Power4,451 MWt
Reactor Fuel Assemblies257
Reactor FuelAdvanced 17x17, 14 ft.
Active Core Length4.2 meters
Coolant System Loops4
Coolant Flow7.64 m3/s/loop
Coolant Pressure15.5 MPa
Steam Generator Type90TT-1
Number of Steam Generators4
Reactor Coolant Pump Type100A
Number of Reactor Coolant Pumps4
Reactor Coolant Pump Motor Output6 MWe

The US-APWR has several design features to improve plant economics. The core is surrounded by a steel neutron reflector which increases reactivity and saves ~0.1wt% U-235 enrichment. In addition, the US-APWR uses more advanced steam generators which creates drier steam allowing for the use of higher efficiency turbines. This leads to a ~10% efficiency increase compared to the APWR.
Several safety improvements are also notable. The safety systems have enhanced redundancy, utilizing 4 trains each capable of supplying 50% of the needed high pressure makeup water instead of 2 trains capable of 100%. Also, more reliance is placed on the accumulators which have been redesigned and increased in size. The improvements in this passive system have led to the elimination of the Low Pressure Safety Injection system, an active system.

Units

Planned

In 2013, plans to build units in the U.S. were suspended:
On 10 May 2011, Japanese Prime Minister Naoto Kan announced that Japan was cancelling plans for new nuclear construction, including the 2 proposed new APWR reactors at Tsuruga Nuclear Power Plant. As of 2014, under a new government, plans for Tsuruga were uncertain. In March 2015 the Nuclear Regulation Authority accepted an expert report that concluded Tsuruga is on an active geological fault.