共查询到14条相似文献,搜索用时 78 毫秒
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本文提供了一个用离子膜电解法生产草酸的新工艺,研究了草酸钠的提纯和制取草酸新方法的工艺条件,求取了技术经济指标,解决了传统工艺的三废污染和产品质低等问题。 相似文献
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现有铬盐生产技术阻碍了铬盐行业的清洁化发展,研发新型铬盐生产技术实属必要。中国科学院青海盐湖研究所自行研发出一套以电化学法为基础的铬盐清洁生产工艺,涵盖三条大工艺和四种母系铬盐产品。包括氢氧化钠溶液中电化学氧化铬铁制备铬酸钠联产三氧化二铬和三氧化二铁工艺,离子膜电解法从铬酸钠合成重铬酸钠工艺,以及离子膜电解法从重铬酸钠合成铬酸酐工艺。相比现有铬盐生产技术,该技术的优势主要体现在以下五点:温和化、去渣化、高值化、自动化和高效化。目前相关研发工作业已走出实验室,走过产业化中间试验,正向产业化示范线迈进。 相似文献
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本文以离子膜电解氯化钾制取碳酸钾工艺产生的淡盐水为原料,系统地研究了聚四氟乙烯平板型气态膜回收氯过程中膜性能和次氯酸钠水溶液的制备。初步研究表明,次氯酸钠含量大于100g/L,氢氧化钠有效利用率为90%;聚四氟乙烯膜有传质快、对离子截留性能好、使用寿命长等优点,在工业上有较好的应用前景。 相似文献
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应用循环曲线法研究了在353 K的乙酰胺-尿素-NaBr熔体中Co2+在Cu电极上的电化学行为,获知Co2+电还原为金属Co是一步不可逆过程,测得a=0.25和Do=3.24×10-6cm2.s-1;而Ce(Ⅲ)、Sm(Ⅲ)不能单独还原为Ce和Sm,但可以被Co(Ⅱ)诱导而共沉积;由恒电位电解法得到非晶态的Ce-Sm-Co合金膜,合金膜中Ce和Sm的含量随电位、时间和浓度的变化而变化。其合金膜中Sm的最高质量分数可以达到47.98%,Ce的最高质量分数可以达到47.32%。 相似文献
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Influences of agricultural phenology dynamic on land surface biophysical process and climate feedback 总被引:1,自引:1,他引:0
Fengshan Liu Ying Chen Wenjiao Shi Shuai Zhang Fulu Tao Quansheng Ge 《地理学报(英文版)》2017,27(9):1085-1099
Response and feedback of land surface process to climate change is one of the research priorities in the field of geoscience. The current study paid more attention to the impacts of global change on land surface process, but the feedback of land surface process to climate change has been poorly understood. It is becoming more and more meaningful under the framework of Earth system science to understand systematically the relationships between agricultural phenology dynamic and biophysical process, as well as the feedback on climate. In this paper, we summarized the research progress in this field, including the fact of agricultural phenology change, parameterization of phenology dynamic in land surface progress model, the influence of agricultural phenology dynamic on biophysical process, as well as its feedback on climate. The results showed that the agriculture phenophase, represented by the key phenological phases such as sowing, flowering and maturity, had shifted significantly due to the impacts of climate change and agronomic management. The digital expressions of land surface dynamic process, as well as the biophysical process and atmospheric process, were improved by coupling phenology dynamic in land surface model. The agricultural phenology dynamic had influenced net radiation, latent heat, sensible heat, albedo, temperature, precipitation, circulation, playing an important role in the surface energy partitioning and climate feedback. Considering the importance of agricultural phenology dynamic in land surface biophysical process and climate feedback, the following research priorities should be stressed: (1) the interactions between climate change and land surface phenology dynamic; (2) the relations between agricultural phenology dynamic and land surface reflectivity at different spectrums; (3) the contributions of crop physiology characteristic changes to land surface biophysical process; (4) the regional differences of climate feedbacks from phenology dynamic in different climate zones. This review is helpful to accelerate understanding of the role of agricultural phenology dynamic in land surface process and climate feedback. 相似文献