Dear Tomasz, For your information my background is also physics. What do you understand with pH values 10.3, 10.7 and 10.85 and propogation error for this system, etc., I will leave up to you. No further comments. regards Mahendra Tomasz Durakiewicz escribis: > Dear Dr. Verma and Colleagues, > > I appreciate Dr. Verma's recent response very much. Now we have a nice > debate and we can make Andrew happy! He was right that such discussions > should be performed here, on this server. If we had this discussion a > year ago, there would have been no Comment in GCA (did I use the right > tense here?). Nancy - you wrote that chemists were so passionate. I am > not a chemist, but a physicist. We are even worse. Our brains shrink > when we think, leaving more space in the skull for passion and less for > reason. > > OK, let us go back to the subject. Let me first summarize the discussion in > points, from the beginning. I shall list all Dr. Verma's critical > remarks (from his Comment and e-mails) and discuss them one by one. Than > comes one suggestion and one personal statement. > > 1. Discussion > > a) Halas pH=10.3 and Verma's pH=10.85 in his Comment (GCA 64, 573-574, > 2000) and 10.7 in his recent posting. Bad chemistry argument for the > first time. > > I am glad to see you finally admitt that there ARE differences between > models, and calculation of pH does not always give the same value. Your > simplified calculations in the Comment gave pH=10.85, whereas in your > recent posting, calculated by activity approach for the same system, we > find different pH=10.71. Finally, if you perform pH calculations for > this system with the WEB-PHREEQ web-based solver > (http://www.ndsu.nodak.edu/instruct/sainieid/geochem/webphreeq/index.shtml) > you end up with pH=10.28 for Halas's values of X1, X2 and pCO2, and > 10.38 for values given in your recent posting. Halas in his Reply gives > the revised value of 10.37!!! > > source pH > > Halas paper 10.30 > Halas measurement 10.30 > Verma comment 10.85 > Halas reply 10.37 > Verma file 10.71 > PHREEQ (Halas's data) 10.28 > PHREEQ (Verma's data) 10.38 > > The most important point here, missing in your Comment, is the possible > influence of changes in fractions of dissolved species on the calculated > DIC-CO2 fractionation factor. This factor is calculated by use of eqn > (15) from Halas's paper and the calculated fractions of HCO3- and CO32-. > These fractions in your most recent Excel file are 0.1833 and 0.8167, > respectively. Halas's values from his Reply are 0.1828 and 0.8172, > respectively. Room temperature fractionation factor calculated by your > values is 4.998 and by Halas's values is 5.001. In his paper he gives > 5.0 +/- 0.2 permil. Where is the difference? Where is the bad chemistry? > Verma's and Halas's results are in PERFECT agreement here! And it is > well documented by your own postings now, that problems with pH > calculations are universal. > As for the error propagation: eroneous 0.35 difference in pH in the > discussed region would cause change of calculated fractionation factor > of about 0.15 permil. This is therefore safe to report the fractionation > factor with +/- 0.2 permil uncertainty, as is done by Halas. > > Conclusion: There is no bad chemistry in Halas's paper. There are > universal problems with pH calculation, but Halas's pH calculated by 2 > different programs gives values close to obtained by his direct > measurements. Verma's results and Halas's results for fractions X1 and > X2 produce the same value of isotopic fractionation. We can trust this > value. > > b) No HCO3 and OH terms in the ionic strength formula (8) in Halas's > Reply (GCA, 64, 575-576, 2000). Bad chemistry argument for the second > and third time (2 postings) > > You need to substitute left side of eqn(1) from the Reply to full eqn(7) > to find out that both HCO and OH terms ARE used in formula (8), although > indirectly. This is simple addition and multiplication, and Dr. Verma is > wrong here. > > Conclusion: Eqn. (8) correct, no bad chemistry. > > c) Water activity 0.98 impossible for this system > You kept repeating it untill you calculated it by yourself to be > 0.98011. > > Conclusion: no bad...... > > d) Ph measurement impossible with high precission. > To make it simple: there is a single measurement error, which is > directly related to instrumental precision. It is additionally enlarged > by random influences, like minute temperature changes. Let us assume > that the maximum single pH measurement error (uncertainty) is very high, as high as > 0.1. We know that repetitive measurements of pH are independent. > According to the error propagation formula, we have the following > uncertainties for the mean value of pH: > > number > of measurements uncertainty of mean > 1 0.100 > 2 0.071 > 5 0.045 > 10 0.031 > 50 0.014 > > It is threfore enough to perform 50 measurements of pH with a poor > precision instrument to obtain satisfactory precision of the mean value. > There is nothing shocking in reporting the pH value with 0.01 > uncertainty. > > Conclusion: You are, of course, right that there are numerous problems > associated with pH measurements. As it is with measurement of every > other physical property. Shall we stop measuring anything because of > associated errors? Halas gives a detailed error propagation discussion > and the wide +/- 0.2 permil uncertainty for his fractionation factor. > Your argument here is irrelevant. > > e) New argument: no water activity in eqn. (5) in the Reply > Now, a new one. There was nothing about this in the Comment, and now it > is the only "basis mistake". Water activity in eqn(5) was obviously set > to 1 to simplify calculations. You must agree that dividing something of > the order of 10^(-15) by 1 or by 0.98 makes no important difference? > > Conclusion: Bad idea, to rise a new ad-hoc argument when the others > failed. > > f) New argument: CO2 fractionation during cryogenic trapping in presence > of water vapour. > This is all described in the paper. CO2 and vapour are separated in the > upper glass ampoule without cooling, in 25C (see Fig. 1 in GCA 61, 2691 > - 2695, 1997) by turning the stopcock. Than both CO2 and H2O are trapped > cryogenically in a small ampoule. Than CO2 is released for measurement > and water remains as a solid in the ampoule. This is all done fast. How > could there be any significant dissolution of CO2 in water in this > experiment? There is supposed to be NO LIQUID WATER there, only water > vapour and frozen solid. Presence of trace amounts of liquid water that > could form on the walls due to temperature instabilities in high > temperature range, could possibly explain variation of results obtained > for high temperatures (together with the stopcocks problems reported in > the paper). But we have to understand one thing - this is not any major > drawback, but quite contrary, this was done with great care and reported > honestly. > > Conclusion: same as in point e) > > g) New argument: there should be no "fundamental experiment (like in > discussion) where there is need of > correcting isotopic measurements with chemical analysis" > > Wrong! All the isotope exchange experiments are like this. What was > measured in this experiment? Weight of reagent, volume of water, pH, > temperature, isotopic compositions of reagent, DIC and CO2. Shall we > stop doing such experiments because they are difficult? This is the only > way to do this. As Dr. Jedrysek (my friend isotope geologist from > Wroclaw) used to say to his students: in this lab you shall find pain, > work, sweat, tears and kicked ass. This is science, I presume. > > 2. Suggestion > Having boxed Halas in public for a while, you say in your recent > posting: "my comments are just some suggestions, > which may be considered during their work". This is true, but the > meaning of your Comment and postings was quite different. I suggest you, > Dr. Verma, to send a letter to The Editor, GCA, stating that you were > wrong in raising the "bad chemistry problem" in the Halas's paper. Or at > least admit this here. > > 3. Personal > Nothing personal! I learned a lot last days and I am grateful for this > possibility. It looks like I will stay in New Mexico for a while. Being > so close to each other, we will probably have a possibility to meet and > have a couple of beers. Or better some Polish Bison Vodka, really cold, > not shaken. No hangover guaranteed. > > With best regards, > > Tomasz Durakiewicz > > *************** > > Mahendra Pal Verma wrote: > > > Dear Colleagues, > > > > I don t know whether I should continue on this matter or not. It looks that there are > > some who are interest in knowing it. In my opinion, too, the Isogeochem Server is a > > good opportunity to discuss our viewpoints and improve our understanding with the > > comments of others. Let me write first that I am a regular reader of GCA and it > > publishes excellent material. Of course, it is well established. My comments were only > > that the reviewers should put more attention when a mistake had been pointed out. > > People at least I use the information published there as granted. > > > > I worked out the problem using the activity approach. The data are given in the > > attached file. I use Error and Trail method to solve a non-linear equation. I do it > > in excel without writing any programming code. I don t think that anyone is > > interested in that. The basis mistake in the reply by Halas et al. (GCA, 64, 575-576, > > 2000) was that their equation 5 should be K3=a(H)a(OH)/a(H2O). The values are given > > for their system (10 g Na2CO3+CO2 from 1g of Na2CO3). Again, there could be small > > differences if you use different constants. I tried to use the same constants as were > > given by Halas et al. I did the calculation without re-check. So, > > there could be some mistakes. I think it could be better if Halas et al. change > > equation 5 and re-calculate the parameters. > > > > Recently, we have started a project to study rainwater acidity around geothermal > > systems. We observed that it was really difficult to measure pH of pure water like > > rainwater with a pH-meter (rainwater characterization is based on pH around the world). > > Similarly there are problems in measuring pH of highly > > acidic or alkaline (more in case of alkaline) waters. (we are working to understand this). > > Additionally, the IAEA has > > conducted three interlab calibrations (Giggenbach, IAEA-TECDOC-641, Vienna, > > p.439-456, 1989 and two are very recent). If you look these reports, you will find > > that there is some improvement in the analysis after 10 years; but the quality of analysis > > of > > especially SiO2, HCO3 and CO3 is far bellow the expectations. That is different topic > > how to improve it. But the results indicate that in my viewpoint one should not > > design a fundamental experiment (like in discussion) where there is need of > > correcting isotopic measurements with chemical analysis. As I tried to explain it in > > my comments. The calculated ratio of HCO3:CO3 is 18:82. So there is need of correcting the > > HCO3 contribution. One can calculate the propogation of error in their isotopic data due to > > the error in the chemical analysis. > > > > Secondly, the partial pressure of CO2 in vapor phase is very low (much less than > > 10^-4 bars). If you are extracting 10 micromoles, you can calculate how much volume > > should be of the experimental vessel and how the vapor phase CO2 can be extracted > > only without changing its isotopic composition. The amount of water vapor will be > > much higher than that of CO2. Check the steam tables. When you condense this vapor > > some part of CO2 will get dissolved in the water. So there will be some fractionation > > in this process, too. So, there are many points one has to consider for this work. I > > do agree that some thing is better than nothing. This way the calculated values (with > > spectroscopic data) could be more accurate than the experimentally measured. The > > measurement of isotopic > > fractionation for CO2(g) and carbonate is a challenging subject. Definitely, it is > > hard job to work on this type of problems. So, we should do encourage the people who are > > working such types of problems. My comments are just some suggestions, > > which may be considered during their work. > > > > Best regards > > > > Mahendra > > > > ------------------------------------------------------------------------ > > Name: calFnl.xls > > calFnl.xls Type: Download File (application/x-msexcel) > > Encoding: base64