Interactions between drops of molten Al-Li alloys and liquid water

Transactions of the American Nuclear Society Pub Date : 1993-08-01 DOI:10.2172/10107057

M. Hyder, L. S. Nelson, P. M. Duda, D. Hyndman

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引用次数: 2

Abstract

Sandia National Laboratories, at the request of the Savannah River Technology Center (SRTC), studied the interactions between single drops of molten aluminum-lithium alloys and water. Most experiments were performed with ``B`` alloy (3.1 w/o Li, balance A1). Objectives were to develop experimental procedures for preparing and delivering the melt drops and diagnostics for characterizing the interactions, measure hydrogen generated by the reaction between melt and water, examine debris recovered after the interaction, determine changes in the aqueous phase produced by the melt-water chemical reactions, and determine whether steam explosions occur spontaneously under the conditions studied. Although many H{sub 2} bubbles were generated after the drops entered the water, spontaneous steam explosions never occurred when globules of the ``B`` alloy at temperatures between 700 and 1000C fell freely through water at room temperature, or upon or during subsequent contact with submerged aluminum or stainless steel surfaces. Total amounts of H{sub 2} (STP) increased from about 2 to 9 cm{sup 3}/per gram of melt as initial melt temperature increased over this range of temperatures.

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铝锂合金液滴与液态水的相互作用

应萨凡纳河技术中心(SRTC)的要求，桑迪亚国家实验室研究了单滴熔融铝锂合金与水之间的相互作用。大多数实验用“B”合金(3.1 w/o Li，天平为A1)进行。目的是开发用于制备和输送熔体液滴的实验程序，以及用于表征相互作用的诊断方法，测量熔体和水之间反应产生的氢，检查相互作用后回收的碎片，确定熔体-水化学反应产生的水相变化，并确定在所研究的条件下是否会自发发生蒸汽爆炸。虽然液滴进入水中后产生了许多H{sub 2}气泡，但在室温下，当温度在700至1000摄氏度之间的“B”合金小球在水中自由下落时，或在随后与浸没的铝或不锈钢表面接触时，不会发生自发的蒸汽爆炸。随着初始熔体温度在此范围内升高，H{sub 2} (STP)的总量从每克熔体约2 cm{sup 3}增加到9 cm{sup 3}。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Transactions of the American Nuclear Society

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