2016-5. How Does It Work? Part I: Pumps
Understanding how liquid chromatography pumps operate can help streamline solving pump problems. LCGC 34(5) 324-329 (2016) John W. Dolan
Read More →Understanding how liquid chromatography pumps operate can help streamline solving pump problems. LCGC 34(5) 324-329 (2016) John W. Dolan
Read More →After more than 40 years, the reciprocating-piston pump remains at the heart of the LC system. LCGC 26(12) 1168-1174 (2008) John W. Dolan
Read More →Do sticky check valves have you discouraged? LCGC 26(6) 532-538 (2008) John W. Dolan
Read More →Changes in retention time can be a key to tracking down LC problems. LCGC 22(12) 1154-1158 (2004) John W. Dolan
Read More →Routine maintenance will extend the life of your pump, a vital module in any liquid chromatography system. LCGC 15(2) 110-113 (1997) John W. Dolan erratum: sidebar should read 1% and 2% for pump specifications, not 0.1% and 0.2% (printed in 15(4))
Read More →For some applications, instrument manufacturers’ specifications provide inadequate performance. LCGC 14(12) 1028-1033 (1996) Daniel L. Marchand, Peng-Ling Zhu, and John W. Dolan
Read More →Like the body’s heart, the LC pump will provide years of reliable service if treated properly. LCGC 9(4) 270-274 (1991) John W. Dolan
Read More →Sometimes, precisely following the instructions may not be enough to get someone else’s method to work in your laboratory. LCGC 9(2) 88-92 (1991) John W. Dolan
Read More →You have to be resourceful to repair a pump whose parts are no longer in production. LCGC 8(12) 916-918 (1990) John W. Dolan
Read More →LCGC 7(3) 224-234 (1989) John W. Dolan
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