词条 | International Reactor Innovative and Secure | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
释义 |
IRIS is a smaller-scale design for a Pressurized water reactor (PWR) with an integral reactor coolant system layout, meaning the steam generators, pressurizer, control rod drive mechanisms, and reactor coolant pumps are all located within the reactor pressure vessel. This causes it to have a larger pressure vessel than an ordinary PWR despite a lower power rating, the size is more comparable to that of an ABWR. Many of these design goals coincide with the objectives of the GNEP program launched by the Bush Administration. With large international acceptance, IRIS could be a very large part of GNEP, providing a plant type for user nations. ContributorsThe project has included the work of a number of organizations around the world, this is a list of the major contributors:
Reactor Coolant SystemThe coolant system consists of a pressurizer, Steam generators, and reactor coolant pumps (RCPs). These are all located within the reactor pressure vessel, making a very small, short loop that forms the primary coolant system, see the figure on the right for the relative locations of the components. PressurizerUnlike ordinary PWRs, the pressurizer is not contained in a separate vessel and connected to the primary side, but rather is the top of the pressure vessel itself. Water line will be at some preset value, and then sprays and boilers within the pressurizer can be used to control pressure and water level. The unique aspect of this is that the pressurizer is of much greater volume than current plants, which helps to keep the pressure constant in accident situations. Steam GeneratorWater from the secondary (the water that is turned into steam and used in the turbine) enters at the bottom of the steam generators, and goes up through a helical coil to the top. The steam generators are once through, and the pressure is greater on the secondary side tubes (no boiling takes place in the tubes). The secondary side water is allowed to flash at the end of the steam generator tube and go out through the steam pipe. There are eight steam generators, as well as eight steam pipes and feedwater pipes. Reactor Coolant Pumps (RCP)The decision to put the RCPs on the inside of the vessel was a fairly radical innovation. With the existence of eight separate RCPs as opposed to the 2 or 4 of a typical PWR, when one pump goes out, that pump can be shut down and isolated, not be worked on until the next outage. CoreIt has in the past been proposed to use higher enrichments for IRIS, allowing a longer cycle life, but the design now calls for 4.95% enriched Uranium, which is the same as what is being used in current plants. The fuel is designed for a 3 to 3.5 year life, and half of the core will reloaded in outages. This longer life is accomplished by having a very large core running a relatively low power plant. Reactivity is controlled almost entirely by control rods and burnable poisons. This eliminates the need for Boron in the primary water, which is a plus for plant chemistry. ContainmentThe containment of IRIS is spherical and set to be approximately 22–27 meters across. This is compared to 58 meters high and 40 meters in diameter for a typical 600 MW PWR. Additionally, two thirds of the containment will be underground, giving it a lower profile, in addition to its already very small footprint. While the containment will be smaller than typical plants, it will also be rated for a higher maximum pressure, increasing costs. AdvantagesMost of the advantages of the new IRIS design are safety related, although Westinghouse claims that IRIS will be able to deliver power at competitive rates as well. Due to Economies of scale, modern nuclear plants tend to be built with larger electrical outputs, such as the European Pressurized Reactor, which has scaled up power to 1600 MW in new plants. IRIS, on the other hand, is built to be used in countries where there are not extremely large electric power grids, mainly developing nations. Due to limitations on power of individual power stations versus total grid size, plants whose power is over a certain percentage of grid size are infeasible in such situations. Due to simplifications and greater safety, it is believed by Westinghouse that in spite of its size, analysis estimated a target total cost of electricity at about 4 ¢/kWh. Given its small power and physical size, it is expected that multi-unit sites could be operated efficiently, Westinghouse estimates that a 3-unit site could be built in 9 years with a maximum cash outflow of 300 M$. One cost saver, for instance, is the need for only one control room, from which all units at a multi-unit site can be controlled. {{see also|Economics of new nuclear power plants}}Aside from economics, these are a few other advantages that the IRIS has:
Disadvantages and CriticismsCompared to Generation III reactors, there are a lot more innovations that may require further investment and research. All the advantages of the reactor can't be proved until a plant is actually built. See also
References
| last = Carelli | first =Mario D. | last2 =Conway | first2 =L.E. | last3 =Oriani | first3 =L. | last4 =Petrovi'c | first4 =B. | last5 =Lombardi | first5 =C.V. | last6 =Ricotti | first6 =M.E. | last7 =Barroso | first7 =A.C.O. | last8 =Collado | first8 =J.M. | last9 = Cinotti | first9 =L. | last10 =Todreas | first10 =N.E. | last11 =Grgić | first11 =D. | last12 =Moraes | first12 =M.M. | last13 =Boroughs | first13 =R.D. | last14 =Ninokata | first14 =H. | last15 =Ingersoll | first15 =D.T. | last16 =Oriolo | first16 =F. | title =The design and safety features of the IRIS reactor | journal =Nuclear Engineering and Design | volume =230 | issue = | pages =151–167 | date =November 13, 2003 | url =http://hulk.cesnef.polimi.it/IRISdocs/IRIS_NED_May2004.pdf | doi =10.1016/j.nucengdes.2003.11.022 | id = }}
1. ^http://www.nei.org/doc.asp?docid=771 1 : Nuclear power reactor types |
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