Conductivity of molten sodium chloride in an arbitrarily weak dc electric field

Delhommelle J; Cummings PT; Petravic J

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Conductivity of molten sodium chloride in an arbitrarily weak dc electric field

机译：任意弱的直流电场中熔融氯化钠的电导率

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We use nonequilibrium molecular-dynamics (NEMD) simulations to characterize the response of a fluid subjected to an electric field. We focus on the response for very weak fields. Fields accessible by conventional NEMD methods are typically of the order of 10(9) V m(-1), i.e., several orders of magnitude larger than those typically used in experiments. Using the transient time-correlation function, we show how NEMD simulations can be extended to study systems subjected to a realistic dc electric field. We then apply this approach to study the response of molten sodium chloride for a wide range of dc electric fields. (c) 2005 American Institute of Physics.

机译：我们使用非平衡分子动力学（NEMD）模拟来表征流体在电场作用下的响应。我们专注于对非常薄弱的领域的响应。通过常规NEMD方法可访问的场通常约为10（9）V m（-1），即比实验中通常使用的场数大几个数量级。使用瞬态时间相关函数，我们展示了如何将NEMD仿真扩展到研究承受实际直流电场的系统。然后，我们将这种方法应用于研究熔融氯化钠对各种直流电场的响应。（c）2005年美国物理研究所。

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《The Journal of Chemical Physics》 |2005年第11期|共5页
作者
Delhommelle J; Cummings PT; Petravic J;
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正文语种 eng
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SHEAR VISCOSITY; COMPUTER-SIMULATION; TRANSPORT; TEMPERATURE; HALIDES; FLUID; VAPOR; SALT; NACL;

机译：剪切粘度;计算机模拟;运输;温度;卤化物;流体;蒸气;盐;NACL;

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1. Conductivity of molten sodium chloride in an arbitrarily weak dc electric field [J] . Delhommelle J, Cummings PT, Petravic J The Journal of Chemical Physics . 2005,第11期

机译：任意弱的直流电场中熔融氯化钠的电导率
2. Conductivity of molten sodium chloride in an arbitrarily weak dc electric field [J] . Jerome Delhommelle, Peter T.Cummings, Janka Petravic The Journal of Chemical Physics . 2005,第11期

机译：任意弱的直流电场中熔融氯化钠的电导率
3. Conductivity of molten sodium chloride in an arbitrarily weak dc electric field [J] . Delhommelle J, Cummings PT, Petravic J The Journal of Chemical Physics . 2005,第11期

机译：任意弱的直流电场中熔融氯化钠的电导率
4. Intensification of Electrical Conductivity of Molten Chloride Electolytes of Lanthanum and Neodymium [C] . SHABANOV OSMAN, SULEIMANOV SAGIM, MAGOMEDOVA ASIAT International Conference on Energy, Environment, Ecosystems and Sustainable Development . 2015

机译：镧和钕熔融氯化物氯化物溶解电导率的强化
5. Crystallization of sodium chloride from a concentrated calcium chloride-potassium chloride-sodium chloride solution in a CMSMPR crystallizer: Observation of crystal size distribution and model validation. [D] . Choi, Byung Sang. 2005

机译：在CMSMPR结晶器中从浓氯化钙-氯化钾-氯化钠溶液中结晶氯化钠：观察晶体尺寸分布和模型验证。
6. Influence of a Weak DC Electric Field on Root Meristem Architecture [O] . Wojciech Wawrecki, Beata Zagórska-Marek 2007

机译：弱直流电场对根分生组织结构的影响
7. Electric conductivities of molten salts of sodium fluoride-barium chloride-aluminum fluoride system and sodium fluoride-barium fluoride-aluminum fluoride system [O] . Kentaro TANIUCHI 1970

机译：氟化钠氯化钠 - 氟化铝氧化钠系统和氟化钠 - 氟化铝 - 氟化铝系统的电导率
8. NMR, DCS, TMA, and High Pressure Electrical Conductivity Studies in Solid, Crosslinked Dimethylsiloxane-Ethylene Oxide Copolymer Networks Containing Sodium [R] . Fontanella, J. J., Wintersgill, M. C. 1986

机译：含钠的固体交联二甲基硅氧烷 - 环氧乙烷共聚物网络中的NmR，DCs，Tma和高压电导率研究

Conductivity of molten sodium chloride in an arbitrarily weak dc electric field

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