近几十年来,ITER(国际热核实验堆)计划在为将来提供商业用电研究方面取得了较大的进展.ITER首先打算搭建一个实验聚变堆,然后再建设一个商业示范聚变堆为今后的正式商业发电做出一定的铺垫.但根据如今世界范围内的研究进展,实现聚变堆的商业发电至少要在2050年.在此之前有必要扩大聚变堆的研究范围,因此聚变堆的非电应用研究必须受到足够的重视.聚变堆的非电应用研究包括短期应用研究和长期应用研究,短期应用研究主要体现在医学、危险物的检测等领域的研究,长期应用研究主要体现在嬗变、氢的制备、空间助推器等领域的研究.综述了聚变堆在各个方面的非电应用研究,并且讨论和举证了聚变堆非电应用的可行性.
参考文献
| [1] | Henderson M A et al.EU developments of the ITER ECRH system[J].Fusion Engineering and Design,2007,82:454. |
| [2] | Fasel D;Albert S et al.Installation and commissioning of the EU test facility for ITER groton[J].Fusion Engineering and Design,2007,82:881. |
| [3] | Lako P;Seebregts A J .Characterization of power generation options for the 21st century.ECN-98-085[R].,1998-12. |
| [4] | Ward D.The impact of physics assumptions on fusion Economics[A].Sorrento,Pub.IAEA Vienna,2001 |
| [5] | JERRY G.DELENE;JOHN SHEFFIELD;KENT A.WILLIAMS .AN ASSESSMENT OF THE ECONOMICS OF FUTURE ELECTRIC POWER GENERATION OPTIONS AND THE IMPLICATIONS FOR FUSION[J].Fusion science and technology: An international journal of the American Nuclear Society,2001(2):228-248. |
| [6] | Chavan R et al.The ECH front steering launcher for the ITER upper port[J].Fusion Engineering and Design,2007,82:867. |
| [7] | Manini A.Optimization of MHD stability using ECCD in ASDEX upgrade[A].Santorum,Greece,2006 |
| [8] | Wu Songtao;The EAST team .An overview of the EAST project[J].Fusion Engineering and Design,2007,82:463. |
| [9] | Masahiro Kawai .East Asian economic regionalism: progress and challenges[J].Journal of Asian Economics,2005(1):29-55. |
| [10] | Liu Dequan;Liu Yong;Yan Jianchen et al.Commissioning and preliminary operation of HL-2A tokamak[J].Fusion Engineering and Design,2005,74:167. |
| [11] | Yao Lieying;Xuan Weimin;Li Huajun;Chen Yuhong;Bu Mingnan;Shao Kui;Hu Haotian;Mao Xiaohui;Wang Shujin;Ren Juqian .Design and development of the power supply system for HL-2A tokamak[J].Fusion engineering and design,2005(1/4):163-167. |
| [12] | Liisa Aha;Hannu Saarinen;Juha Tiitinen;Ali Muhammad;Jouni Mattila;Mikko Siuko;Matti Vilenius;Jorma Jaervenpaeae;Mike Irving;Carlo Damiani;Luigi Semeraro .Unified software development approach for the safety-critical ITER maintenance devices[J].Fusion engineering and design,2009(2/6):106-112. |
| [13] | Cook I;Miller R L;Ward D J .Prospects for economic fusion electricity[J].Fusion Engineering and Design,2002,63-64:25. |
| [14] | Sabalan Daneshvar;Hassan Ghassemian .MRI and PET image fusion by combining IHS and retina-inspired models[J].Information Fusion,2010(2):114-123. |
| [15] | Vincent Barra;Jean-Yves Boire .A general framework for the fusion of anatomical and functional medical images[J].NEUROIMAGE,2001,23:410. |
| [16] | Boris Escalante-Ramirez .The Hermite transform as an efficient model for local image analysis:An application to medical image fusion[J].COMPUTERS & ELECTRICAL ENGINEERING,2008,34:99. |
| [17] | Sobottkaa S B;Steinmeiera R;Beuthien-Baumannb B .Evaluation of automatic multimodality fusion technique of PET and MRI/CT images for compute assisted brain tumor surgery[J].International Congress Series,2001,1230:261. |
| [18] | Wang Zhaobin;Ma Yide .Medical image fusion using m-PCNN[J].Information Fusion,2008,9:176. |
| [19] | Li Tianjie;Wang Yuanyuan .Biological image fusion using a NSCT based variable-weight method[J].Information Fusion,2010,12(02):85. |
| [20] | Tu T M;Su S C;Shyu H C .A new look at IHS-like image fusion methods[J].Information Fusion,2001,3(02):177. |
| [21] | Mehmet F Orban;lbrahim Dincer et al.Energy and energy assessments of the hydrogen production step of a copper chlorine thermochemical water splitting cycle driven by nuclear-based heat[J].International Journal of Hydrogen Energy,2008,33:6456. |
| [22] | Naterer G F;Fowler M;Cottonc J .Synergistic roles of offpeak electrolysis and thermochemical production of hydrogen from nuclear energy in Canada[J].International Journal of Hydrogen Energy,2008,33:6849. |
| [23] | Overview of nuclear hydrogen production research through iodine sulfur process at INET[J].International journal of hydrogen energy,2010(7):2883. |
| [24] | Rachael Elder;Ray Allen .Nuclear Heat For Hydrogen Production: Coupling A Very High/high Temperature Reactor To A Hydrogen Production Plant[J].Progress in Nuclear Energy,2009(3):500-525. |
| [25] | Mehmet F Orhan;Ibrahim Dincer;Greg F Naterer .Coupling copper-chloride hybrid thermochemical water splitting cycle with a desalination plant for hydrogen production from nuclear energy[J].International Journal of Hydrogen Energy,2010,35:1560. |
| [26] | Naterera G;Suppiah S et al.Recent Canadian advances in nuclear-based hydrogen production and the thermochemical Cu-Cl cycle[J].International Journal of Hydrogen Energy,2009,34:2901. |
| [27] | Seiji Fujiwara;Shigeo Kasai;Hiroyuki Yamauchi;Kazuya Yamada;Shinichi Makino;Kentaro Matsunaga;Masato Yoshino;Tsuneji Kameda;Takashi Ogawa;Shigeki Momma;Eiji Hoashi .Hydrogen production by high temperature electrolysis with nuclear reactor[J].Progress in nuclear engergy,2008(2/6):422-426. |
| [28] | O'Brien J E;McKellar M G et al.High-temperature electrolysis for large-scale hydrogen and syngas production from nuclear energy-Summary of system simulation and economic analyses[J].International Journal of Hydrogen Energy,2010,35:4808. |
| [29] | Hueseyin Yapici;Gamze Genc;Nesrin Demir .Transmutation-incineration potential of transuraniums discharged from PWR-UO_2 spent fuel in modified PROMETHEUS fusion reactor[J].Fusion engineering and design,2006(18):2093-2108. |
| [30] | Hoffman E A;Stacey W M .Nuclear and fuel cycle analysis for a fusion transmutation of waste reactor[J].Fusion Engineering and Design,2002,63-64:87. |
| [31] | Mustafa Ubeyli .Transmutation of minor actinides discharged from LMFBR spent fuel in a high power density fusion reactor[J].Energy Conversion Manag,2004,45:3219. |
| [32] | Stacey W M .Transmutation missions for fusion neutron sources[J].Fusion Engineering and Design,2007,82:11. |
| [33] | Stefan Taczanowski;Grazyna Doman Ska;Jerzy Cetnar .Fusion-driven transmutations of nuclear waste-Amisconception or an incentive for promotion of fusion energy[J].Fusion Engineering and Design,1998,41:455. |
| [34] | Feng K M;Zhang G S;Deng M G .Transmutation of minor actinides in a spherical torus tokamak fusion reactor,FDTR[J].Fusion Engineering and Design,2002,63-64:127. |
| [35] | Deuterium microbomb rocket propulsion[J].Acta astronautica,2010(1/2):40. |
| [36] | Winterberg F .Proopulsion application of non-neutronic fusion chain reactions in petawatt laser lgnited shear flow stabilized dense plasma z-pinches[J].Acta Astronautica,2000,46:551. |
| [37] | Dana G. Andrews .Interstellar propulsion opportunities using near-term technologies[J].Acta astronautica,2004(3/9):443-451. |
| [38] | Kammash T;Godfroy T .An open cycle gas core fusion rocket for space exploration[J].Acta Astronautica,1997,41:229. |
| [39] | Waganer L M .Assessing a new direction for fusion[J].Fusion Engineering and Design,2000,48:467. |
| [40] | Wanex L F;Winterberg F .Fusion propulsion with a sheared helical flowstabilized z-pinch[J].Acta Astronautica,2009,65:787. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%