第二部分为介绍微波萃取技术的部分,包括了第二章。
The second part for the introduction microwave extract technology's part, has included the second chapter.
综述了微波萃取技术的机理、基本工艺、特点和目前的研究现状。
This paper reviews the mechanism, technology, trait and the present stage for the research and development of microwave-assisted extraction.
对微波萃取技术的原理、特点、工艺、设备、应用等方面进行了综述。
The principle, advantages, technology, equipment, and its applications of microwave extraction technique are reviewed in this paper.
微波萃取技术是一种快速、高效的提取新技术,目前已广泛应用于多种领域。
Microwave extraction is a rapid and efficient new method of extraction. Recently, it is applied in many field.
结论:微波萃取技术快速、高效,对花、根、果、叶类药材均有较高的提取效率。
Conclusions: Microwave extraction is rapid and highly active, and it can be widely used to extract the Traditional Chinese Medicine.
微波萃取技术与传统加热提取技术相比,具有提取时间短、温度低、耗能低、品质高等优良特性。
Compared with the traditional technique of heating extraction, the microwave extraction technique is characteristic of short time, low temperature, low consumption and high quality.
结论采用微波萃取技术提取冬凌草甲素,具有提取快速、操作简便、节省溶剂和有效成分提取率高等优点。
Conclusion microwave technology for oridonin extraction has advantages of rapid extraction, simple operation, saving solvent and higher extraction yield, etc.
对微波萃取技术进行了简要综述,具体介绍了微波萃取的原理、特点、萃取参数设备、优越性及近年来的研究进展和应用,并展望了微波萃取技术的发展前景。
The microwave aided extraction process is reviewed, the principle, advantages, parameters and its recent research progress are introduced. The prospect of this technique is also discussed.
微波萃取是一种新型高效的提取分离技术,可在化工、制药、食品等领域中得到广泛应用。
Microwave extraction is a new and high efficient technique for extraction and separation, which is widely applicable in chemical, pharmaceutical and food industrial fields.
用微波萃取和GC -ECD联用技术,对土壤中六六六、滴滴涕进行了分析。
Technique of microwave extraction and GC-ECD was used to analyze hexachlorocyclohexane BHC and DDT in soil.
本文综述了近年来国内外微波辅助萃取技术在有机磷、有机氯及其他农药残留分析中的应用。
The recent development and application of microwave assisted extraction for organochlorine, organophosphorus pesticide residue analysis were reviewed in this paper.
对微波、超临界协同超声波萃取技术进行了讨论。
The microwave and supercritical synergistic extraction methods are also discussed.
综述了微波技术在样品消解、干燥以及溶剂萃取和解吸、生色反应、形态分析、微波雾化等方面的应用。
Microwave techniques applied in sample digestion, drying, solvent extraction and desorption, chromogenic reaction, specificity analysis and microwave atomization were summarized.
综述微波技术在样品干燥、消解、萃取、雾化等方面的应用。
Application of microwave techniques in sample drying, digestion, extraction, and atomization were summarized.
采用微波萃取、减压浓缩、超音速射流技术喷雾干燥等步骤制成。
It is prepared through microwave extraction, decompressing concentration, spray drying in supersonic jet and other steps.
概述了近年来样品预处理方法的新进展,简要介绍并对比了固相萃取(SPE)、固相微萃取技术(S PME)、微波提取技术(MAE)、超临界萃取( SFE)、加速溶剂提取(ASE)等方法。
This paper discusses the recent advances in sample pretreatment methods and briefly introduces and compares the technique of SPE, SPME, MAE, SFE and ASE.
概述了近年来样品预处理方法的新进展,简要介绍并对比了固相萃取(SPE)、固相微萃取技术(S PME)、微波提取技术(MAE)、超临界萃取( SFE)、加速溶剂提取(ASE)等方法。
This paper discusses the recent advances in sample pretreatment methods and briefly introduces and compares the technique of SPE, SPME, MAE, SFE and ASE.
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