Bruce, From what I can see your N2 backgrounds are great. A pressure leak down test is the end all way to see if your system has leaks because it will test the whole path on the EA. The actual value of your backgrounds might not matter, as long as they are consistent. Whenever you change a tank you have to reevaluate what the best minimum backgrounds are. What are backgrounds for 30 and 18? I have found these two to be more of an absolute indicator of poor data quality. Background of 30>500mV and 18 >5000mV is problematic. I once had N2 backgrounds of 200-300 mV and argon of 4000. One would think this is a leak, but it was just the tank. Both 13C and 15N came out with typical precision of <0.1 per mill for the life of the tank. Since you are dealing with sediment samples, getting optimum combustion is probably your major issue. You've got to consider how homogenous the material really is, enough oxygen is being supplied at the right time, and how quickly the ash builds up. Hope this helps, Ben Benjamin Harlow Manager, Stable Isotope Core Laboratory Washington State University School of Biological Sciences G-81 Eastlick Pullman, WA 99164-4236 Office: 509-335-6161 Lab: 509-335-6154 Fax: 509-335-3184 Laboratory for Biotechnology and Bioanalysis (LBB2) Stable Isotope Core http://www.isotopes.wsu.edu -----Original Message----- From: Stable Isotope Geochemistry [mailto:[log in to unmask]] On Behalf Of Belbachir, Ali Sent: Friday, December 05, 2008 12:08 PM To: [log in to unmask] Subject: Re: [ISOGEOCHEM] Question on O2 purity and typical N2 background. This is about the same background I have. 30 mV on mass 28. If you had a leak you will definitely know it as the background could rise to 300-400 mV. I believe that on the EA the O2 valve is open only on injection time (opened for 10 sec). So if you have this background continuously it is not necessarily contributed from the O2 cylinder. Good luck, Ali Belbachir Analytical Technologist Canada Border Services Agency 79 Bentley Avenue, Ottawa, ON K1A 0L8 [log in to unmask] -----Original Message----- From: Stable Isotope Geochemistry [mailto:[log in to unmask]] On Behalf Of Bruce Wegter Sent: Friday, December 05, 2008 2:22 PM To: [log in to unmask] Subject: [ISOGEOCHEM] Question on O2 purity and typical N2 background. We have a Costech EA, a Conflo III, and a Thermo Delta V Advantage I.R.M.S. Currently using continuous flow for C13 and N15 determination on sediment core samples. C13 analysis is very good. N2 is the issue, our N2 background is typically in the 26mV - 28mV range (on N28, cup 2), we have tried various grades of O2 combustion gas, from grade 4.5, 5.0 (< 5 ppm N2, batch tested), and now grade 6.0 (supposedly < 0.2ppm N2, also batch tested), with no change at all in the N2 background. Note: this background is present in blanks, (blank = no sample whatsoever, O2 injected, with auto sampler inhibited) as well as "empty" tin capsules, and of course samples and standards. We have (we believe) thoroughly leak checked the system with argon leak check techniques. This identified a small leak at the water trap in the EA, which we promptly corrected. No other leaks were identified, typical Ar40 on cup 3 reads < 70 mV (it has been lower than 60 mV). All gas fittings, regulators, and lines from all gas cylinders were also checked, again no leaks were identified. We plumbed He into the O2 line to see if N2 background would change with the He in the combustion line. It did, N28 background was 2mV - 3mV on cup 2 with He in place of O2. Question 1: Is our N2 background (~28mV) typical? If not, what is? Question 2: What grade O2 should we use (and is grade 6.0 the "best"?)? Manual says grade 5.0 or better, we have seen no difference in N2 background between 4.5, 5.0, and 6.0. Should I request from my gas supplier a specific O2 cylinder which has been tested and certified to < 0.2ppm N2, not just batch tested? Or, should I try a different supplier? We have had no other issues with our current supplier. I realize that cert's can be wrong, and our O2 cylinder grades might not really be what they are supposed to be, but are we looking in the right direction, or barking up the wrong tree (as Mom used to say!). Question 3: What else could give us our N2 background? Any help or direction would be greatly appreciated. Thank you in advance. Bruce Wegter Sciences Instrumentation Technician Geosciences Department Hamilton College - Clinton, New York 13323 e-mail: [log in to unmask]