为了给筛选萼脊兰内参基因和研究 TUB 基因的生理功能提供研究基础,对萼脊兰 TUB 基因片段进行克隆与序列分析。采用 CTAB 法提取萼脊兰盛花期花瓣总 RNA,并运用 RT-PCR 方法克隆萼脊兰 TUB 基因序列,长度为1055 bp,编码351个氨基...为了给筛选萼脊兰内参基因和研究 TUB 基因的生理功能提供研究基础,对萼脊兰 TUB 基因片段进行克隆与序列分析。采用 CTAB 法提取萼脊兰盛花期花瓣总 RNA,并运用 RT-PCR 方法克隆萼脊兰 TUB 基因序列,长度为1055 bp,编码351个氨基酸残基,氨基酸序列中存在微管蛋白的保守区域 GGGTGSG。序列分析结果表明:与其他已登录物种的 TUB 基因相比,其核苷酸序列的同源性达75%~96%,与朵丽蝶兰(JN185665.1)同源性高达96%,氨基酸序列的同源性也在96%以上,且与单子叶植物的同源序列表现出较高的相似性。在 GenBank 注册,登录号为KP686397。展开更多
Hydrodynamic cavitaion venturi tube technique is used for pico and nano bubble generations in coal column flotation. In order to determine the optimal design of hydrodynamic cavitation venture tube for pico and nano b...Hydrodynamic cavitaion venturi tube technique is used for pico and nano bubble generations in coal column flotation. In order to determine the optimal design of hydrodynamic cavitation venture tube for pico and nano bubble generation, a four-factor three-level Central Composite Design of Experimental was conducted for investigating four important design parameters of cavitation venturi tube governing the median size and the volume of pico and nano bubbles. The test results showed that maximum volume of pico and nano bubbles, 65–75%, and minimum mean pico and nano bubble size,150–240 nm, were achieved at the medium ratio of the diameter of outlet of the venturi-tube and diameter of throat(3–4), medium outlet angle(11–13°), high inlet angle(26–27°) and high ratio of the length of the throat and the diameter of throat(2.3–3). Study the effects of the producing pico and nano bubbles on fine coal flotation was performed in a 5 cm diameter 260 cm height flotation column. The optimal percentage of pico and nano bubbles was about 70%, which produced maximum combustible material recovery of 86% with clean coal ash content of 11.7%.展开更多
The analysis of the failure mechanics, namely hydrogen permeation of vacuum insulated tubing (VIT), indicated that the failure of VIT could be decreased but could not be avoided. To solve this problem, some measures...The analysis of the failure mechanics, namely hydrogen permeation of vacuum insulated tubing (VIT), indicated that the failure of VIT could be decreased but could not be avoided. To solve this problem, some measures by using non-vacuum materials were proposed and analyzed in this paper. The results show that to fill the tubing with foam-glass beads or high pressure argon may lead to a good performance.展开更多
文摘为了给筛选萼脊兰内参基因和研究 TUB 基因的生理功能提供研究基础,对萼脊兰 TUB 基因片段进行克隆与序列分析。采用 CTAB 法提取萼脊兰盛花期花瓣总 RNA,并运用 RT-PCR 方法克隆萼脊兰 TUB 基因序列,长度为1055 bp,编码351个氨基酸残基,氨基酸序列中存在微管蛋白的保守区域 GGGTGSG。序列分析结果表明:与其他已登录物种的 TUB 基因相比,其核苷酸序列的同源性达75%~96%,与朵丽蝶兰(JN185665.1)同源性高达96%,氨基酸序列的同源性也在96%以上,且与单子叶植物的同源序列表现出较高的相似性。在 GenBank 注册,登录号为KP686397。
基金West Virginia State Coal and Energy Research Bureau(WVCERB)the Department of Mining Engineering,West Virginia University
文摘Hydrodynamic cavitaion venturi tube technique is used for pico and nano bubble generations in coal column flotation. In order to determine the optimal design of hydrodynamic cavitation venture tube for pico and nano bubble generation, a four-factor three-level Central Composite Design of Experimental was conducted for investigating four important design parameters of cavitation venturi tube governing the median size and the volume of pico and nano bubbles. The test results showed that maximum volume of pico and nano bubbles, 65–75%, and minimum mean pico and nano bubble size,150–240 nm, were achieved at the medium ratio of the diameter of outlet of the venturi-tube and diameter of throat(3–4), medium outlet angle(11–13°), high inlet angle(26–27°) and high ratio of the length of the throat and the diameter of throat(2.3–3). Study the effects of the producing pico and nano bubbles on fine coal flotation was performed in a 5 cm diameter 260 cm height flotation column. The optimal percentage of pico and nano bubbles was about 70%, which produced maximum combustible material recovery of 86% with clean coal ash content of 11.7%.
文摘The analysis of the failure mechanics, namely hydrogen permeation of vacuum insulated tubing (VIT), indicated that the failure of VIT could be decreased but could not be avoided. To solve this problem, some measures by using non-vacuum materials were proposed and analyzed in this paper. The results show that to fill the tubing with foam-glass beads or high pressure argon may lead to a good performance.