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Disodium hydrogen citrate

SYNS DISODIUM HYDROGEN CITRATE NATRIUM CITRICUM (GERMAN) SODIUM CITRATE (FCC)... [Pg.572]

Disodium hydrogen citrate and Disodium hydrogen phosphate ... [Pg.414]

It is used in food products, primarily to adjust the pH of solutions. It is also used as a sequestering agent. The anhydrous material is used in effervescent tablet formulations. Sodium citrate is additionally used as a blood anticoagulant either alone or in combination with other citrates such as disodium hydrogen citrate. [Pg.675]

Each vial contains imiglucerase (212 units), mannitol (170 mg), sodium citrates (70 mg), trisodium citrate (52 mg), disodium hydrogen citrate (18 mg), polysorbate 80 (0.53 mg). Citric acid and/or sodium hydroxide may have been added at the time of manufacture to adjust pH. Haemaccel (cross-linked gelatin polypeptides) is used as a stabilizing agent. [Pg.342]

Disodium hydrogen citrate Sodium acid citrate CjttjNajO, 144-33-2 236.088 wh pow (w) 149 dec vs HjO... [Pg.344]

BufFer-Salt-Mixture To induce phase separation, the following mixture of salts is required per sample test portion (containing approx. 10 g of water) 4 g magnesium sulfate anhydrous grit, 1 g of sodium chloride, 1 g of disodium hydrogen citrate sesquihydrate, and 0.5 g of trisodium citrate dihydrate. It is advisable to prepare in advance a sufficient number of portions of this mixture, the preparation of which is immensely facilitated if a sample divider (see apparatus) is used. [Pg.441]

Prepare a citrate buffer by dissolving 2.4g disodium hydrogen citrate (Na2HC6H507) and 2.1 g sodium dihydrogen citrate (NaH2CeH507) in a minimal amount of distilled water and dilute to lOOmL. Adjust pH to 4.6 if necessary. [Pg.232]

For disodium hydrogen citrate, NaOH, HCl buffers covering the pH range 2.2—6.8, see Sorensen (1909, 1912)... [Pg.132]

Manzurola E, Apelblat A (2003) Vapour pressure of water over saturated solutions of tartaric acid, sodium hydrogen tartrate, sodium tartrate, potassium tartrate, calcium tartrate, barium tartrate, citric acid, disodium hydrogen citrate, sodium eitrate, and potassium citrate at temperatures from 277 K to 317 K. J Chem Thermodyn 35 251-260... [Pg.134]

In the case of disodium hydrogen citrate aqueous solutions (Fig. 3.3) for c> 10 mol dm, essentially only HCit exists. Three charged anion Cit starts to be of importance for c< 10 mol dm As expected, the neutral salt, trisodium citrate can be considered as a strong electrolyte (see also [5]). [Pg.148]

Fig. 3.3 Distribution of H Cir, HCit and Cit anions as a function of total disodium hydrogen citrate concentration in water c at 25°C. The concentration fractions a = a(R Cir), a = a(RCit ) and a, = a(Cit )... Fig. 3.3 Distribution of H Cir, HCit and Cit anions as a function of total disodium hydrogen citrate concentration in water c at 25°C. The concentration fractions a = a(R Cir), a = a(RCit ) and a, = a(Cit )...
Fig. 5.5 The apparent number of particles in solution as a function of concentration of acidic alkali metal eitrates. - sodium dihydrogen citrate, - potassium dihydrogen citrate and -disodium hydrogen citrate... Fig. 5.5 The apparent number of particles in solution as a function of concentration of acidic alkali metal eitrates. - sodium dihydrogen citrate, - potassium dihydrogen citrate and -disodium hydrogen citrate...
Table 5.8 Vapour pressures of water over saturated solutions of trisodium citrate, tripotassium citrate and disodium hydrogen citrate as a function of temperature... Table 5.8 Vapour pressures of water over saturated solutions of trisodium citrate, tripotassium citrate and disodium hydrogen citrate as a function of temperature...
Fig. 5.14 Osmotic coefScients calculated from experimental water activities at 25 °C. - disodium hydrogen citrate, - potassium dihydrogen eitrate and - diammonium hydrogen citrate... Fig. 5.14 Osmotic coefScients calculated from experimental water activities at 25 °C. - disodium hydrogen citrate, - potassium dihydrogen eitrate and - diammonium hydrogen citrate...
Fig. 5.20 The apparent molar volume of diammonium hydrogen citrate (1) and disodium hydrogen citrate (2) as a function of concentration at25°C.H-[181],B-[160],... Fig. 5.20 The apparent molar volume of diammonium hydrogen citrate (1) and disodium hydrogen citrate (2) as a function of concentration at25°C.H-[181],B-[160],...
Fig. 5.25 Products of temperature and the second derivatives of volume with respect to temperature of water and of m=Q. mol kg citrate solutions as a function of temperature. B - water, B - trilithium citrate, B - trisodium citrate, B - disodium hydrogen citrate and B - sodium dihydrogen citrate... Fig. 5.25 Products of temperature and the second derivatives of volume with respect to temperature of water and of m=Q. mol kg citrate solutions as a function of temperature. B - water, B - trilithium citrate, B - trisodium citrate, B - disodium hydrogen citrate and B - sodium dihydrogen citrate...
See other pages where Disodium hydrogen citrate is mentioned: [Pg.734]    [Pg.311]    [Pg.731]    [Pg.248]    [Pg.150]    [Pg.1657]    [Pg.1456]    [Pg.311]    [Pg.1360]    [Pg.33]    [Pg.1523]    [Pg.1531]    [Pg.1263]    [Pg.324]    [Pg.271]    [Pg.282]    [Pg.282]    [Pg.284]    [Pg.293]    [Pg.303]    [Pg.307]    [Pg.310]    [Pg.312]    [Pg.312]    [Pg.317]   
See also in sourсe #XX -- [ Pg.675 ]



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