气相色谱法测定偏二甲肼成分误差分析

气相色谱法测定偏二甲肼成分含量的过程中,人为因素、偏二甲肼的物理化学性能、色谱工作站参数设定等都会对测定的准确性产生影响。文章对各方面的影响因素进行了分析,并有针对性地提出了解决办法。     

基于正交函数的神经网络色谱曲线自适应在线滤波和压缩

由于正交基函数神经网络采用Givens正交学习算法，不是迭代算法，因而速度快，加之其无初始权值选择问题，不会陷入局部极小，所以本文选择此神经网络用于色谱数据的自适应在线滤波和压缩。实验结果表明，本方法滤波效果好，压缩比高，可实时完成，非常适用于色谱数据的在线处理需要。     

PGC302气相工业色谱仪在液氧中CH化合物分析上的应用

介绍了用PGC302气相工业色谱仪（FID检测器）直接测定空分装置液态氧中碳氢化合物的分析方法,该方法具有自动化程度高,灵敏度精密度好等优点.     

Exploration life support technology challenges for the Crew Exploration Vehicle and future human missions

As NASA implements the U.S. Space Exploration Policy, life support systems must be provided for an expanding sequence of exploration missions. NASA has implemented effective life support for Apollo, the Space Shuttle, and the International Space Station (ISS) and continues to develop advanced systems. This paper provides an overview of life support requirements, previously implemented systems, and new technologies being developed by the Exploration Life Support Project for the Orion Crew Exploration Vehicle (CEV) and Lunar Outpost and future Mars missions. The two contrasting practical approaches to providing space life support are (1) open loop direct supply of atmosphere, water, and food, and (2) physicochemical regeneration of air and water with direct supply of food. Open loop direct supply of air and water is cost effective for short missions, but recycling oxygen and water saves costly launch mass on longer missions. Because of the short CEV mission durations, the CEV life support system will be open loop as in Apollo and Space Shuttle. New life support technologies for CEV that address identified shortcomings of existing systems are discussed. Because both ISS and Lunar Outpost have a planned 10-year operational life, the Lunar Outpost life support system should be regenerative like that for ISS and it could utilize technologies similar to ISS. The Lunar Outpost life support system, however, should be extensively redesigned to reduce mass, power, and volume, to improve reliability and incorporate lessons learned, and to take advantage of technology advances over the last 20 years. The Lunar Outpost design could also take advantage of partial gravity and lunar resources.