Numerous DBDs are available for a variety of databases and access to each database requires using the DBI and the database specific DBD.
有多种可用于各种数据库的DBD,要访问某一个数据库,需要同时使用DBI和特定于数据库的DBD。
The DBI module automatically loads the DBD::DB2 driver when you create a database handle using the DBI->connect statement with the following syntax
当使用DBI->connect语句(语法如下)来创建一个数据库句柄 时,DBI模块会自动加载DBD::DB2驱动程序。
A different way to access a database using Perl is to use the DBI and the DBD-ODBC module which USES ODBC instead of the native DBD.
使用Perl访问数据库的另一种方法是使用DBI和DBD -ODBC模块,后者使用ODBC,而不是使用本地的DBD。
Considering the different effects of wall charges on the adjacent micro-discharges in DBD, we have proposed a mapping equation of discharge moment.
根据壁电荷对相邻两次微放电的不同影响,建立了介质阻挡放电时间序列的映射方程。
Dielectric barrier discharge (DBD) process has become a highlight in research due to its advantages such as higher removal efficiency, lower energy consumption and less ground demand.
介质阻挡放电(DBD)由于具有分解效率高、能耗低、占地少等特点而逐渐成为研究的热点。
Energy consumption analysis indicates that AC regeneration by DBD plasma is a viable regeneration technology, and has extensive industry application prospects.
能耗分析显示:DBD等离子体再生ac技术是一种经济可行的再生工艺,具有广泛的工业化应用前景。
The process of coplanar dielectric barrier discharge (DBD) has been investigated experimentally and theoretically by using a segmented-electrode system.
对共面介质阻挡放电(DBD)的放电过程进行了实验和理论研究。
In this paper, a plasma jet of argon has been achieved using dielectric barrier discharge (DBD) in flowing argon at atmospheric pressure.
本文利用介质阻挡放电(DBD)制式,在流动的氩气中实现了大气压低温等离子体射流。
Dielectric barrier discharge (DBD) plasma is a novel type of plasma that can be generated under atmospheric pressure, which can easily be scaled up to industrial dimensions.
介质阻挡放电(DBD)等离子体技术是一种能够在常压下产生低温等离子体的新兴等离子体技术,具有很好的工业应用前景。
By DBD plasma technique, the liquefaction mechanism of solid burnable including coal and biomass was studied in the paper to explore a new way to utilize energy.
本文利用介质阻挡放电等离子体技术,对以煤和生物质为代表的固态可燃物液化反应机理进行研究,以期探索能源利用新途径。
By DBD plasma technique, the liquefaction mechanism of solid burnable including coal and biomass was studied in the paper to explore a new way to utilize energy.
本文利用介质阻挡放电等离子体技术,对以煤和生物质为代表的固态可燃物液化反应机理进行研究,以期探索能源利用新途径。
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