Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat)

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Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat)

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat)

CAS No. : 10039-32-4

EC No. : 600-088-6

Synonyms:

10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat; 10039-32-4; Disodium phosphate dodecahydrate; Disodium hydrogen phosphate dodecahydrate; Phosphoric acid, disodium salt, dodecahydrate; Sodium hydrogenphosphate dodecahydrate; UNII-E1W4N241FO; Sodium phosphate dibasic dodecahydrate; Sodium phosphate, dibasic, dodecahydrate; Disodium orthophosphate, dodecahydrate; di-Sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate (2:1:1:12); E1W4N241FO; dibasic dodecahydratesodium phosphate; disodium hydrogenphosphate dodecahydrate; sodium hydrogen phosphate dodecahydrate; Sodium monohydrogen phosphate dodecahydrate; Sodium phosphate, dibasic dodecahydrate, 99%, extra pure; Sodium phosphate, dibasic dodecahydrate, 98.5%, for analysis; Sodium phosphate, dibasic dodecahydrate, 99%, for biochemistry; KSC174K6H; 2Na.HPO4.12H2O; disodium phosphate 12 hydrate; DTXSID4064923; CHEBI:91259; CTK0H4563; KS-00000YO4; 5247AF; AKOS015950614; LS00067; Dibasic sodium phosphate hydrate (JP17); sodium hydrogen phosphate–water (1/12); LS-107841; Phosphoric acid, disodiumsalt, dodecahydrate; FT-0625318; D06389; J-000126; Q27163167; UNII-GR686LBA74 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; UNII-SE337SVY37 component DGLRDKLJZLEJCY-UHFFFAOYSA-L; Disodium phosphate dodecahydrate; 2-sodium phosphate 12-hydrate; DISODIUM PHOSPHATE DODECAHYDRATE; DSODUM PHOSPHATE DODECAHYDRATE; Disodyum fosfat dodekahidrat; Disodyum fosfat dodekahidrat; DISODYUM FOSFAT DODEKAHIDRAT; DSODYUM FOSFAT DODEKAHDRAT; 2-SODYUM FOSFAT 12-HDRAT; 2-sodyum fosfat 12-hidrat;  

EN

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) IUPAC Name disodium;hydrogen phosphate;dodecahydrate

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) InChI InChI=1S/2Na.H3O4P.12H2O/c;;1-5(2,3)4;;;;;;;;;;;;/h;;(H3,1,2,3,4);12*1H2/q2*+1;;;;;;;;;;;;;/p-2

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) InChI Key DGLRDKLJZLEJCY-UHFFFAOYSA-L

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Canonical SMILES O.O.O.O.O.O.O.O.O.O.O.O.OP(=O)([O-])[O-].[Na+].[Na+]

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Molecular Formula H25Na2O16P

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) CAS 7632-05-5 (Parent)

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) European Community (EC) Number 600-088-6

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) UNII E1W4N241FO

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) DSSTox Substance ID DTXSID4064923

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Property Name Property Value Reference

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Molecular Weight 358.14 g/mol

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Hydrogen Bond Donor Count 13

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Hydrogen Bond Acceptor Count 16

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Rotatable Bond Count 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Exact Mass 358.06756 g/mol

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Monoisotopic Mass 358.06756 g/mol

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Topological Polar Surface Area 95.4 Ų

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Heavy Atom Count 19

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Formal Charge 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Complexity 46.5

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Isotope Atom Count 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Defined Atom Stereocenter Count 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Undefined Atom Stereocenter Count 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Defined Bond Stereocenter Count 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Undefined Bond Stereocenter Count 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Covalently-Bonded Unit Count 15

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Compound Is Canonicalized Yes

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), also known as orthophosphoric acid or Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), is a weak acid with the chemical formula H3PO4. It is normally encountered as a colorless syrup of 85% concentration in water. The pure compound is a colorless solid.All three hydrogens are acidic to varying degrees and can be lost from the molecule as H+ ions (protons). When all three H+ ions are removed, the result is an orthophosphate ion PO43−, commonly called “phosphate”. Removal of one or two protons gives dihydrogen phosphate ion H2PO−4, and the hydrogen phosphate ion HPO2−4, respectively. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) also forms esters, called organophosphates.Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is commonly encountered in chemical laboratories as an 85% aqueous solution, which is a colourless, odourless, and non-volatile syrupy liquid. Although Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) does not meet the strict definition of a strong acid, the 85% solution can still severely irritate the skin and damage the eyes.The name “Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat)” can be used to distinguish this specific acid from other “Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat)”, such as pyrophosphoric acid. Nevertheless, the term “Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat)” often means this specific compound; and that is the current IUPAC nomenclature.Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is produced industrially by two general routes.[15] In the wet process a phosphate-containing mineral such as calcium hydroxyapatite is treated with sulfuric acid.[16]{displaystyle {ce {Ca5(PO4)3OH + 5H2SO4 -> 3H3PO4 + 5CaSO4v + H2O}}}{displaystyle {ce {Ca5(PO4)3OH + 5H2SO4 -> 3H3PO4 + 5CaSO4v + H2O}}} Fluoroapatite is an alternative feedstock, in which case fluoride is removed as the insoluble compound Na2SiF6. The Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) solution usually contains 23–33% P2O5 (32–46% H3PO4). It may be concentrated to produce commercial- or merchant-grade Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), which contains about 54–62% P2O5 (75–85% H3PO4). Further removal of water yields Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) with a P2O5 concentration above 70% (corresponding to nearly 100% H3PO4). Calcium sulfate (gypsum) is produced as a by-product and is removed as phosphogypsum.To produce food-grade Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), phosphate ore is first reduced with coke in an electric arc furnace, to make elemental phosphorus. Silica is also added, resulting in the production of calcium silicate slag. Elemental phosphorus is distilled out of the furnace and burned with air to produce high-purity phosphorus pentoxide, which is dissolved in water to make Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat).The Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) from both processes may be further purified by removing compounds of arsenic and other potentially toxic impurities.Food-grade Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) (additive E338[18]) is used to acidify foods and beverages such as various colas and jams, providing a tangy or sour taste. Soft drinks containing Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), which would include Coca-Cola, are sometimes called phosphate sodas or phosphates. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) in soft drinks has the potential to cause dental erosion.[19] Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) also has the potential to contribute to the formation of kidney stones, especially in those who have had kidney stones previously.Specific applications of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) include:In anti-rust treatment by phosphate conversion coating or passivation As an external standard for phosphorus-31 nuclear magnetic resonance.In Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) fuel cells.In activated carbon production.In compound semiconductor processing, to etch Indium gallium arsenide selectively with respect to indium phosphide.In microfabrication to etch silicon nitride selectively with respect to silicon dioxide.As a pH adjuster in cosmetics and skin-care products.As a sanitizing agent in the dairy, food, and brewing industries.A link has been shown between long-term regular cola intake and osteoporosis in later middle age in women (but not men).[26] This was thought to be due to the presence of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), and the risk for women was found to be greater for sugared and caffeinated colas than diet and decaffeinated variants, with a higher intake of cola correlating with lower bone density.At moderate concentrations Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) solutions are irritating to the skin. Contact with concentrated solutions can cause severe skin burns and permanent eye damage.[27]Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is a unique inorganic acid electrolyte, which is generally used in fuel cell applications at around 200 °C in order to obtain higher system efficiency where its concentration is over 100%. A matrix, which is made of SiC, is used to retain the hot Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) in a cell. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) has advantageous properties as an electrolyte, such as low volatility, good ionic conductivity, stability at relatively high temperatures, carbon dioxide tolerance, and also carbon monoxide tolerance. With all these advantages, there have been several technical electrolyte-related problems with fuel cell stacks. The major issues are volume change, evaporation loss, and electrolyte migration, and these are described in detail. These problems mainly arise due to the fact that Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is a liquid electrolyte under fuel cell operation.Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) (H3PO4, also known as Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) or phosphoric (V) acid) is a mineral inorganic acid. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) refers to Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) in which the prefix ortho is used to distinguish the acid from related Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), called polyphosphoric acids. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), when pure, is a solid at room temperature and pressure. The most common source of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is an 85% aqueous solution that is colorless and nonvolatile but is sufficiently acidic to be corrosive. Because of the high percentage of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) in this reagent, at least some of the Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is condensed into Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat). For the sake of labeling and simplicity, the 85% represents the acid as if it was all Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat). Dilute aqueous solutions of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) exist in the orthoform.Phosphoric acid (H3PO4) can be manufactured using either a thermal or a wet process. However, the majority of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is produced using the wet-process method. Wet-process Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is used for fertilizer production. Thermal process Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is commonly used in the manufacture of high-grade chemicals, which require a much higher purity. The production of wet-process Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) generates a considerable quantity of acidic cooling water with high concentrations of phosphorus and fluoride. This excess water is collected in cooling ponds that are used to temporarily store excess precipitation for subsequent evaporation and to allow recirculation of the process water to the plant for reuse.In the wet process, Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is produced by reacting sulfuric acid (H2SO4) with naturally occurring phosphate rock. The phosphate rock is dried, crushed, and then continuously fed into the reactor along with sulfuric acid. The reaction combines calcium from the phosphate rock with sulfate, forming calcium sulfate (gypsum, CaSO4), which is separated from the reaction solution by filtration. Some facilities generally use a dihydrate process that produces gypsum in the form of calcium sulfate with two molecules of water (calcium sulfate dihydrate, CaSO4·2H2O). Other facilities may use a hemihydrate process that produces calcium sulfate with the equivalent of a half molecule of water per molecular of calcium sulfate (2CaSO4·H2O). The one-step hemihydrate process has the advantage of producing wet-process Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) with a higher concentration of phosphorus pentoxide (P2O5) and less impurities than the dihydrate process. A simplified reaction for the dihydrate process is as follows:In order to make the strongest pDisodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) possible and to decrease evaporation costs, 93% (v/v) sulfuric acid is normally used. During the reaction, gypsum crystals are precipitated and separated from the acid by filtration. The separated crystals must be washed thoroughly to yield at least a 99% (v/v) recovery of the filtered Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat). After washing, the slurried gypsum is pumped into a gypsum pond for storage. Water is siphoned off and recycled through a surge cooling pond to the Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) process. Wet-process Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) normally contains 26%–30% (w/w) phosphorus pentoxide, and in most cases, the acid must be further concentrated to meet phosphate feed material specifications for fertilizer production. Depending on the types of fertilizer to be produced, Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) is usually concentrated to 40%–55% (w/w) phosphorus pentoxide by using two or three vacuum evaporators.In the thermal process, the raw materials for the production of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) are elemental (yellow) phosphorus, air, and water. The process involves three major steps: (1) combustion, (2) hydration, and (3) demisting. In the combustion step, the liquid elemental phosphorus is burned (oxidized) in ambient air in a combustion chamber at temperatures of 1650–2760°C (3000–5000°F) to form phosphorus pentoxide:The phosphorus pentoxide is then hydrated with dilute phosphoric acid (H3PO4) or water to produce strong Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) liquid.The final step is a demisting step that is applied to removal of the Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) mist from the combustion gas stream before releasing to the atmosphere, which is usually accomplished by use of high-pressure-drop demisters. As always, release to the atmosphere can only be accomplished if the demisted product is a clean and nonpolluting stream.The concentration of phosphoric acid (H3PO4) produced from the thermal process normally ranges from 75% to 85% (v/v). This concentration is required for high-grade chemical production and other nonfertilizer product manufacturing. Efficient plants recover approximately 99.9% (w/w) of the elemental phosphorus burned as the phosphoric acid product.In Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) production, the fluorine released from reactors and evaporators is usually recovered as a by-product that can be sold. The remainder is passed to the condenser that produces a liquid effluent with mostly fluoride and small amounts of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat). Closed systems recycle this effluent; in other cases, it is discharged to open waters.The manufacture of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) produces a gypsum slurry that is sent to settling ponds to allow the solids to settle out. About 5 lbs of phosphor-gypsum is generated per pound of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat). This phosphor-gypsum contains trace elements from phosphate rock, such as cadmium and uranium. Pond systems are usually fitted with lining systems and collection ditches to maintain control of trace elements and avoid contamination of ground water.The major source of phosphorus in the world is apatite, which is a group of phosphate minerals, usually referring to hydroxylapatite, fluorapatite and chlorapatite, with high concentrations of hydroxyl (OH−) ions, fluoride (F−) ions, and chloride (Cl−) ions, respectively, in the crystal apatite (Ca5(PO4)3(F,Cl,OH)). Commercially, the most important is fluoroapatite, a calcium phosphate that contains fluorine. This fluorine must be removed for the manufacture of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), but it also can be used to produce hydrofluoric acid and fluorinated compounds.Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) esters, for example, tributyl phosphate, (CH3CH2CH2CH2O)3PO are used for the separation of nuclear fuel elements, uranium, zirconium and hafnium, and rare earth elements. Trioctyl phosphine oxide (TOPO), R3PO where R is C8H17) is another solvationg extractant used to recover uranium from wet process Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) liquors (Hudson, 1982). It is also used as a constituent of supported liquid membranes to recover rhenium from hydrometallurgical effluents (to be described in Chapter 12). Some long chain ketones, for example, methyl isobutyl ketone, CH3CO,CH2CH(CH3)2 have been used for separation of niobium and tantalum (described in Chapter 10).Conductivity An increase in Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) doping levels results in a clear increase in membrane conductivity related to the increase in proton ‘carriers’. Thus at 150 °C, for doping levels of 4.7, 6.7, and 14.5 Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) moles per PBI repeat unit, respective conductivities of 18, 22, and 79 mS cm−1 were obtained. On the contrary, it was observed that membrane conductivities increase up to 150 °C and then decline. This behavior was attributed to the self-dehydration of Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) above 150 °C, resulting in less conductive pyrophosphoric acid.At a doping level corresponding to the maximum protonation of PBI, i.e., two Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) moles per PBI repeat unit, the proton hopping from N site to the Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) anion was reported to contribute significantly to conductivity, which reached 25 mS cm−1 at 200 °C.On the contrary, at an acid doping level of 5.6 Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) moles per PBI repeat unit, ‘free acid’ contribution to conductivity is dominant. The conductivity of PBI was found to improve with atmospheric humidity, but its dependence on RH was far less than in Nafion membranes. This hopping-like mechanism is confirmed by Arrhenius behavior of conductivity.Hydration, too, releases some additional heat. The properties of phosphorus pentoxide and the absorption process inevitably leave as much as 25% of the oxide plus a Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) mist in the exit gases from the absorption tower. These are captured on passage through an electrostatic precipitator. By variations of the process details and equipment, grades (concentrations) of phosphoric acid from 75–105% (ortho, or superphosphoric acid) H3PO4 may be made in this manner [28].Phosphoric acid production by phosphorus combustion is usually accomplished in a stepwise manner as outlined, with intermediate isolation of the phosphorus. However, it may also be made by direct contact of phosphorus vapor from the furnace of a phosphorus plant with an air stream, and then passing the phosphorus pentoxide produced directly into a hydrator, without collection of the intermediate phosphorus as a liquid. Direct conversion to phosphoric acid in this way is attractive because the bulk of white phosphorus produced is converted to phosphoric acid.What is Phosphoric Acid? Phosphoric acid is a colorless, odorless mineral acid. With an acidic taste and somewhat viscous consistency, phosphoric acid is used in a wide variety of products and industries. Despite its popularity, this chemical can pose some potentially significant health hazards and should be handled with caution.Common Uses of Phosphoric Acid Phosphoric acid is used in several industries. Fertilizer accounts for the majority of phosphoric acid use, but this chemical can also be found in:Food additives (to acidify foods, or as a leavening agent) Soaps and detergents Water treatment Toothpastes Rust removal Etching solutions in dentistry Teeth whiteners Cleaning products Health Hazards Associated with Phosphoric Acid Phosphoric acid can be very hazardous in the case of skin contact, eye contact, and ingestion. It can also cause irritation if vapors are inhaled. This chemical can cause damage to the skin, eyes, mouth, and respiratory tract. Because of the potential hazards posed by this chemical, it is important to use care when handling it.Repeated or prolonged exposure to phosphoric acid mist can lead to chronic eye irritation, severe skin irritation, or prolonged respiratory tract issues. To protect your health when handling this potentially hazardous chemical, it is important to use caution in the form of personal protective equipment (PPE).Phosphoric Acid Safety, Handling & First Aid When handing phosphoric acid, use a certified vapor respirator. Eye-wash stations and safety showers should be located near work stations as a precaution. A face shield, gloves and boots should also be used. In case of accidental exposure to phosphoric acid, follow these first aid guidelines:Inhalation—Seek fresh air and immediate medical attention.Eye Contact—Remove contact lenses if present. Immediately flush eyes with plenty of water for at least 15 minutes, and get medical attention.Skin Contact—Wash skin with soap and water. Cover any irritated skin with an emollient. Seek medical attention.Ingestion—Do NOT induce vomiting. Never give anything by mouth to an unconscious person. Seek medical attention if any adverse health symptoms occur.Safe Storage & Disposal of Phosphoric Acid Store phosphoric acid in a cool, well-ventilated area protected from moisture. Keep away from incompatible substances such as oxidizing agents, metals, combustible materials, and alkalis. This chemical should be stored in a metallic or coated fiberboard container using a strong polyethylene inner package. Dispose of this chemical in accordance with federal, state, and local environmental control regulations.Need more safety information about phosphoric acid or other chemicals in your workplace? Check out our extensive library of MSDS information here.Phosphoric Acid can affect you when breathed in.Phosphoric Acid is a CORROSIVE CHEMICAL and contact can irritate and burn the eyes.Breathing Phosphoric Acid can irritate the nose, throat and lungs causing coughing and wheezing.Long-term exposure to the liquid may cause drying and cracking of the skin.IDENTIFICATION Phosphoric Acid is a colorless, odorless solid or a thick, clear liquid. It is used in rustproofing metals, fertilizers, detergents,foods, beverages, and water treatment.Acute Health Effects The following acute (short-term) health effects may occur immediately or shortly after exposure to Phosphoric Acid:Contact can irritate and burn the eyes.Breathing Phosphoric Acid can irritate the nose and throat causing coughing and wheezing.Chronic Health Effects The following chronic (long-term) health effects can occur at some time after exposure to Phosphoric Acid and can last for months or years:Cancer Hazard Phosphoric Acid has not been tested for its ability to cause cancer in animals.Reproductive Hazard Phosphoric Acid has not been tested for its ability to affect reproduction.Other Long-Term Effects Phosphoric Acid can irritate the lungs. Repeated exposure may cause bronchitis to develop with cough, phlegm and/or shortness of breath.Long-term exposure to the liquid may cause drying and cracking of the skin.Where possible, automatically transfer solid Phosphoric Acid or pump liquid Phosphoric Acid from drums or other storage containers to process containers.Workers whose clothing has been contaminated by Phosphoric Acid should change into clean clothing promptly.Do not take contaminated work clothes home. Family members could be exposed.Contaminated work clothes should be laundered by individuals who have been informed of the hazards of exposure to Phosphoric Acid.Eye wash fountains should be provided in the immediate work area for emergency use.If there is the possibility of skin exposure, emergency shower facilities should be provided.On skin contact with Phosphoric Acid, immediately wash or shower to remove the chemical. At the end of the workshift, wash any areas of the body that may have contacted Phosphoric Acid, whether or not known skin contact has occurred.Do not eat, smoke, or drink where Phosphoric Acid is handled, processed, or stored, since the chemical can be swallowed. Wash hands carefully before eating, drinking,smoking, or using the toilet.For solid Phosphoric Acid, use a vacuum to reduce dust during clean-up. DO NOT DRY SWEEP.Clothing Avoid skin contact with Phosphoric Acid. Wear acidresistant gloves and clothing. Safety equipment suppliers/manufacturers can provide recommendations on the most protective glove/clothing material for your operation.All protective clothing (suits, gloves, footwear, headgear) should be clean, available each day, and put on before work.Safety equipment manufacturers recommend Natural Rubber, Nitrile Rubber, Polyvinyl Chloride, Viton or Neoprene as protective materials.SPILLS AND EMERGENCIES If Phosphoric Acid is spilled or leaked, take the following steps:Evacuate persons not wearing protective equipment from area of spill or leak until clean-up is complete.Cover liquids with dry lime, sand or soda ash, and place in covered containers for disposal.Collect powdered material in the most convenient manner and deposit in sealed containers.Ventilate and wash area after clean-up is complete.It may be necessary to contain and dispose of Phosphoric Acid as a HAZARDOUS WASTE.If employees are required to clean-up spills, they must be properly trained and equipped. OSHA 1910.120(q) may be applicable.Prior to working with Phosphoric Acid you should be trained on its proper handling and storage.Phosphoric Acid will react with FINELY POWDERED METALS to form flammable and explosive Hydrogen gas.Phosphoric Acid must be stored to avoid contact with WATER; AMMONIA; BLEACH; and NITROMETHANE since violent reactions occur.Phosphoric Acid is not compatible with STRONG BASES (such as SODIUM HYDROXIDE and POTASSIUM HYDROXIDE); COMBUSTIBLES; ORGANICS;ALCOHOLS; STRONG ACIDS (such as HYDROCHLORIC, SULFURIC and NITRIC); AMINES;EPOXIDES; METALS; and METAL SALTS.Store in tightly closed containers in a cool, well-ventilated area away from GLASS, RUBBER, PLASTICS and COATINGS.

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Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) IUPAC Ad disodyum; hidrojen fosfat; dodekahidrat

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) InChI InChI = 1S / 2Na.H3O4P.12H2O / c ;; 1-5 (2,3) 4 ;;;;;;;;;;; / h ;; (H3,1,2,3,4) ; 12 * 1H2 / q2 * + 1 ;;;;;;;;;;;;; / p-2

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) InChI Anahtar DGLRDKLJZLEJCY-UHFFFAOYSA-L

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Kanonik SMILES O.O.O.O.O.O.O.O.O.O.O.O.OP (= O) ([O -]) [O -]. [Na +]. [Na +]

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Moleküler Formül H25Na2O16P

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) CAS 7632-05-5 (Ana)

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Avrupa Topluluu (EC) Numaras 600-088-6

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) UNII E1W4N241FO

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) DSSTox Madde Kimlii DTXSID4064923

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Mülk Ad Mülk Deer Referans

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Moleküler Arlk 358,14 g / mol

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Hidrojen Ba Donör Says 13

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Hidrojen Ba Alcs Says 16

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Döndürülebilir Tahvil Says 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Tam Kütle 358.06756 g / mol

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Monoizotopik Kütle 358.06756 g / mol

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Topolojik Polar Yüzey Alan 95.4 Ų

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Ar Atom Says 19

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Resmi Ücret 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Karmaklk 46.5

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) zotop Atom Says 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Tanml Atom Stereo Merkez Says 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Tanmsz Atom Stereo Merkez Says 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Tanml Bond Stereocenter Says 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Tanmsz Ba Stereocenter Says 0

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Kovalent Bal Birim Says 15

Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Bileik Kanonikletirilmitir Evet

Ortofosforik asit veya fosforik (V) asit olarak da bilinen Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), H3PO4 kimyasal formülüne sahip zayf bir asittir. Normalde suda% 85 konsantrasyonda renksiz bir urup olarak karmza çkmaktadr. Saf bileik renksiz bir katdr, üç hidrojenin tamam deien derecelerde asidiktir ve molekülden H + iyonlar (protonlar) olarak kaybolabilir. Üç H + iyonu da çkarldnda, sonuç genellikle “fosfat” olarak adlandrlan bir ortofosfat iyonu PO43− olur. Bir veya iki protonun uzaklatrlmas, srasyla dihidrojen fosfat iyonu H2PO 4 ve hidrojen fosfat iyonu HPO2−4 verir. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) ayrca organofosfatlar ad verilen esterleri oluturur.Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) genellikle kimya laboratuvarlarnda renksiz, kokusuz ve uçucu olmayan uruplu bir sv olan% 85 sulu çözelti olarak karmza çkar. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), güçlü bir asidin kat tanmn karlamasa da,% 85’lik çözelti cildi ciddi ekilde tahri edebilir ve gözlere zarar verebilir. Bu spesifik asidi dier “Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat)” ayrt etmek için “ortofosforik asit” ad kullanlabilir, pirofosforik asit gibi. Bununla birlikte, “Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat)” terimi genellikle bu spesifik bileik anlamna gelir; ve bu mevcut IUPAC terminolojisidir. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) endüstriyel olarak iki genel yolla üretilir. [15] Islak ilemde, kalsiyum hidroksiapatit gibi fosfat içeren bir mineral sülfürik asit ile ilenir. [16] { displaystyle { ce {Ca5 (PO4) 3OH + 5H2SO4 -> 3H3PO4 + 5CaSO4v + H2O}}} { displaystyle { ce {Ca5 (PO4) 3OH + 5H2SO4 -> 3H3PO4 + 5CaSO4v + H2O}}} Floroapatit alternatif bir besleme stoudur, bu durumda florür çözünmez bileik Na2SiF6 olarak uzaklatrlr.Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) solüsyonu genellikle% 23–33 P2O5 (% 32–46 H3PO4) içerir. Yaklak% 54–62 P2O5 (% 75–85 H3PO4) içeren ticari veya ticari snf Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) üretmek için konsantre edilebilir. Suyun daha fazla uzaklatrlmas,% 70’in üzerinde bir P2O5 konsantrasyonuna sahip süperfosforik asit verir (yaklak% 100 H3PO4’e karlk gelir). Kalsiyum sülfat (alçta) bir yan ürün olarak üretilir ve fosfojips olarak uzaklatrlr.Gdaya uygun Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) üretmek için, fosfat cevheri ilk önce bir elektrik ark frnnda kok ile indirgenerek elemental fosfor yaplr. Silika da eklenir ve kalsiyum silikat cürufu oluur. Elemental fosfor, frndan damtlr ve Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) yapmak için suda çözünen yüksek saflkta fosfor pentoksit üretmek için hava ile yaklr. Her iki ilemden de Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), arsenik bileikleri ve dier potansiyel olarak toksik safszlklar giderilerek daha da saflatrlabilir. .Gda dereceli Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) (katk maddesi E338 [18]), çeitli kolalar ve reçeller gibi yiyecek ve içecekleri asitlendirmek için kullanlr, keskin veya eki bir tat salar. Coca-Cola’y içerebilecek Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) içeren alkolsüz içeceklere bazen fosfat gazl içecekler veya fosfatlar denir. Alkolsüz içeceklerdeki Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) di erozyonuna neden olma potansiyeline sahiptir. [19] Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) ayrca, özellikle daha önce böbrek ta olanlarda böbrek ta oluumuna katkda bulunma potansiyeline sahiptir. Fosforik asidin özel uygulamalar unlar içerir: Fosfat dönüümlü kaplama veya pasivasyon ile pas önleyici ilemde Fosfor için harici bir standart olarak- 31 nükleer manyetik rezonans Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) yakt pillerinde Aktif karbon üretiminde Bileik yar iletken ilemede indiyum fosfite göre seçici olarak indiyum galyum arsenidi andrmak için Mikrofabrikasyonda silikon nitrürü silikon dioksite göre seçici olarak andrmak için Bir pH ayarlayc olarak Süt ürünleri, gda ve bira endüstrilerinde sterilize edici bir ajan olarak, kadnlarda (erkeklerde deil) orta yan ilerleyen dönemlerinde uzun süreli düzenli kola alm ile osteoporoz arasnda bir balant olduu gösterilmitir. [26 ] Bunun Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) varlndan kaynakland düünülüyordu ve kadnlar için risk, diyet ve kafeinsiz varyantlara göre ekerli ve kafeinli kola için daha yüksek bulundu ve daha yüksek kola alm, daha düük kemik younluu ile ilikili. asit solüsyonlar cildi tahri eder.Konsantre solüsyonlarla temas ciddi cilt yanklarna ve kalc göz hasarna neden olabilir. [27] Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), konsantrasyonunun yüksek olduu yerlerde daha yüksek sistem verimlilii elde etmek için genellikle yakt hücresi uygulamalarnda yaklak 200 ° C’de kullanlan benzersiz bir inorganik asit elektrolittir. 100’ün üzerinde%. SiC’den yaplm bir matris, bir hücrede scak fosforik asidi tutmak için kullanlr. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), düük uçuculuk, iyi iyonik iletkenlik, nispeten yüksek scaklklarda stabilite, karbon dioksit tolerans ve ayrca karbon monoksit tolerans gibi bir elektrolit olarak avantajl özelliklere sahiptir. Tüm bu avantajlarla birlikte, yakt hücresi ynlarnda elektrolitle ilgili birkaç teknik sorun olmutur. Balca sorunlar hacim deiiklii, buharlama kayb ve elektrolit göçüdür ve bunlar ayrntl olarak açklanmaktadr. Bu problemler esas olarak fosforik asidin yakt hücresi çalmas altnda sv bir elektrolit olmas nedeniyle ortaya çkar.Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Fosforik asit (H3PO4, ortofosforik asit veya fosforik (V) asit olarak da bilinir) bir mineral inorganik asittir. Ortofosforik asit, asidi polifosforik asitler ad verilen ilgili fosforik asitlerden ayrmak için orto ön ekinin kullanld fosforik asidi ifade eder. Ortofosforik asit saf olduunda oda scaklnda ve basncnda katdr. En yaygn Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) kayna, renksiz ve uçucu olmayan, ancak andrc olmak için yeterince asidik olan% 85 sulu çözeltidir. Bu reaktifteki yüksek Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) yüzdesi nedeniyle, ortofosforik asidin en azndan bir ksm polifosforik asitlere younlatrlr. Etiketleme ve basitlik adna,% 85 asidi sanki ortofosforik asitmi gibi temsil eder. Ortoformda seyreltik sulu Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) çözeltileri bulunur.Fosforik asit (H3PO4) termal veya slak ilem kullanlarak üretilebilir. Bununla birlikte, fosforik asidin çounluu slak ilem yöntemi kullanlarak üretilir. Gübre üretiminde slak ilem Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) kullanlr. Termal ilem Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), çok daha yüksek saflk gerektiren yüksek dereceli kimyasallarn üretiminde yaygn olarak kullanlmaktadr. Ya ilem Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) üretimi, yüksek konsantrasyonlarda fosfor ve florür içeren önemli miktarda asidik soutma suyu üretir. Bu fazla su, sonradan buharlama için fazla çökeltiyi geçici olarak depolamak ve proses suyunun yeniden kullanm için tesise yeniden sirkülasyonuna izin vermek için kullanlan soutma havuzlarnda toplanr.Islak proseste, Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), sülfürik asit (H2SO4) ile reaksiyona sokularak üretilir. doal olarak oluan fosfat kayas. Fosfat kayas kurutulur, ezilir ve ardndan sülfürik asitle birlikte reaktöre sürekli olarak beslenir. Reaksiyon, fosfat kayasndan gelen kalsiyumu sülfatla birletirerek kalsiyum sülfat (alçta, CaSO4) oluturur ve bu, reaksiyon çözeltisinden filtrasyonla ayrlr. Baz tesisler genellikle iki molekül su (kalsiyum sülfat dihidrat, CaSO4 · 2H2O) ile kalsiyum sülfat formunda alç üreten bir dihidrat ilemi kullanr.Dier tesisler, moleküler kalsiyum sülfat (2CaSO4 · H2O) bana yarm molekül su edeeriyle kalsiyum sülfat üreten bir hemihidrat ilemi kullanabilir. Tek adml hemihidrat prosesi, daha yüksek konsantrasyonda fosfor pentoksit (P2O5) ve dihidrat prosesine göre daha az safszlk içeren slak proses fosforik asit üretme avantajna sahiptir. Dihidrat prosesi için basitletirilmi bir reaksiyon u ekildedir: Mümkün olan en güçlü fosforik asidi yapmak ve buharlama maliyetlerini düürmek için, normalde% 93 (v / v) sülfürik asit kullanlr. Reaksiyon srasnda, alçta kristalleri çökeltilir ve süzülerek asitten ayrlr. Ayrlan kristaller, filtrelenmi fosforik asidin en az% 99 (v / v) geri kazanmn salamak için iyice ykanmaldr. Ykandktan sonra, bulamaç haline getirilmi alç, depolama için bir alç havuzuna pompalanr. Su sifonlanr ve dalgal soutma havuzundan Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) ilemine geri dönütürülür. Islak ilem Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) normalde% 26-30 (arlk / arlk) fosfor pentoksit içerir ve çou durumda gübre üretimi için fosfat besleme malzemesi spesifikasyonlarn karlamak için asit daha da konsantre edilmelidir. Üretilecek gübre türlerine bal olarak, Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) genellikle iki veya üç vakumlu buharlatrc kullanlarak% 40-55 (w / w) fosfor pentoksit konsantre edilir.Termal proseste Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) üretimi için hammaddeler elementel (sar) fosfor, hava ve sudur. lem üç ana adm içerir: (1) yanma, (2) hidrasyon ve (3) buu giderme. Yanma aamasnda, sv element fosforu, fosfor pentoksit oluturmak için 1650–2760 ° C (3000–5000 ° F) scaklklarda bir yanma odasnda ortam havasnda yaklr (oksitlenir): Fosfor pentoksit daha sonra seyreltik fosforik ile hidratlanr güçlü Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) svs üretmek için asit (H3PO4) veya su.Son adm, atmosfere salnmadan önce Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) buharnn yanma gaz akndan uzaklatrlmas için uygulanan bir buu giderme admdr ve genellikle yüksek basnç düülü buu çözücüler. Her zaman olduu gibi, atmosfere salnm yalnzca buu giderilmi ürün temiz ve kirletmeyen bir akmsa gerçekletirilebilir. Termal ilemden üretilen fosforik asit (H3PO4) konsantrasyonu normalde% 75 ila% 85 (v / v) arasnda deiir. Bu konsantrasyon, yüksek kaliteli kimyasal üretim ve dier gübre olmayan ürün imalatlar için gereklidir. Verimli bitkiler, Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) ürünü olarak yaklan element fosforunun yaklak% 99,9’unu (arlk / arlk) geri kazanr. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) üretiminde, reaktörlerden ve buharlatrclardan salnan flor genellikle satlabilen bir yan ürün olarak geri kazanlr. Kalan, çounlukla florür ve az miktarda Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) içeren sv bir atk üreten younlatrcya geçirilir. Kapal sistemler bu atk suyu geri dönütürür; dier durumlarda, açk sulara boaltlr. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) üretimi, katlarn çökelmesine izin vermek için çökeltme havuzlarna gönderilen bir alç bulamac üretir. Her pound Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) için yaklak 5 lbs fosfor-alç üretilir. Bu fosfor alçta, kadmiyum ve uranyum gibi fosfat kayadan iz elementler içerir. Gölet sistemleri, iz elementlerin kontrolünü salamak ve yer alt suyunun kirlenmesini önlemek için genellikle kaplama sistemleri ve toplama hendekleriyle donatlmtr.Dünyadaki balca fosfor kayna, genellikle hidroksilapatit, florapatit ve fosfat minerallerinden oluan bir grup olan apatittir. kristal apatit (Ca5 (PO4) 3 (F, Cl, OH)) içinde yüksek konsantrasyonlarda hidroksil (OH−) iyonlar, florür (F−) iyonlar ve klorür (Cl−) iyonlar içeren klorapatit. Ticari olarak en önemlisi, flor içeren bir kalsiyum fosfat olan floroapatittir. Bu florin Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) üretimi için uzaklatrlmas gerekir, ancak hidroflorik asit ve florlanm bileikler üretmek için de kullanlabilir.Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) esterleri, örnein tributil fosfat, (CH3CH2CH2CH2O) 3PO nükleer yakt elementlerinin ayrlmas için kullanlr, uranyum, zirkonyum ve hafniyum ve nadir toprak elementleri.Trioktil fosfin oksit (TOPO), R’nin C8H17 olduu R3PO) slak ilem fosforik asit likörlerinden uranyumu geri kazanmak için kullanlan baka bir çözücü özütleyicidir (Hudson, 1982). Hidrometalurjik atklardan renyumun geri kazanlmas için destekli sv membranlarn bir bileeni olarak da kullanlr (Bölüm 12’de açklanacaktr). Baz uzun zincirli ketonlar, örnein, metil izobütil keton, CH3CO, CH2CH (CH3) 2, niyobyum ve tantaln ayrlmas için kullanlmtr (Bölüm 10’da anlatlmtr). proton ‘tayclarndaki’ artla ilgili iletkenlik. Böylece 150 ° C’de, PBI tekrar birimi bana 4.7, 6.7 ve 14.5 fosforik asit molü doping seviyeleri için, 18, 22 ve 79 mS cm-1’lik ilgili iletkenlikler elde edildi. Aksine, membran iletkenliklerinin 150 ° C’ye kadar artt ve ardndan dütüü görülmütür. Bu davran, fosforik asidin 150 ° C’nin üzerinde kendi kendine dehidrasyonuna atfedilerek daha az iletken pirofosforik asitle sonuçland. PBI’nn maksimum protonasyonuna karlk gelen bir katk seviyesinde, yani PBI tekrar birimi bana iki fosforik asit molü, proton atlamas N bölgesinden Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) anyonuna, 200 ° C’de 25 mS cm-1’e ulaan iletkenlie önemli ölçüde katkda bulunduu bildirilmitir. Bunun tersine, PBI tekrar birimi bana 5,6 fosforik asit molü asit katklama seviyesinde ‘serbest asit iletkenlie katk hakimdir. PBI iletkenliinin atmosferik nem ile artt bulundu, ancak RH’ye olan bamll Nafion membranlardakinden çok daha azd. Bu sekme benzeri mekanizma, Arrhenius’un iletkenlik davran ile dorulanr. Hidrasyon da bir miktar ek s aça çkarr. Fosfor pentoksitin özellikleri ve absorpsiyon prosesi, absorpsiyon kulesinden çkan gazlarda kaçnlmaz olarak% 25’e kadar oksit art Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) sisi brakr. Bunlar elektrostatik bir çökelticiden geçerken yakalanr. Proses ayrntlarnn ve ekipmannn varyasyonlaryla,% 75-105 (orto veya süperfosforik asit) H3PO4 arasndaki Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) dereceleri (konsantrasyonlar) bu ekilde yaplabilir [28]. Fosfor yanmas yoluyla Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) üretimi genellikle bir Fosforun ara izolasyonu ile belirtildii gibi aamal bir ekilde. Bununla birlikte, bir fosfor fabrikasnn frnndan gelen fosfor buharnn bir hava akm ile dorudan temas ve daha sonra üretilen fosfor pentoksitin, ara fosforun sv olarak toplanmas olmakszn dorudan bir hidratöre geçirilmesi yoluyla da yaplabilir. Bu ekilde dorudan fosforik aside dönüüm çekicidir çünkü üretilen beyaz fosforun büyük ksm fosforik aside dönütürülür. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) nedir? Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) renksiz, kokusuz bir mineral asittir. Asidik bir tad ve biraz viskoz kvam ile Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat), çok çeitli ürün ve endüstrilerde kullanlmaktadr. Popülerliine ramen, bu kimyasal baz potansiyel olarak önemli salk tehlikeleri oluturabilir ve dikkatli kullanlmaldr.Fosforik Asidin Yaygn Kullanm Alanlar Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) birçok endüstride kullanlmaktadr. Gübre, Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) kullanmnn çounluunu oluturur, ancak bu kimyasal ayn zamanda uralarda da bulunabilir: Gda katk maddeleri (yiyecekleri asitletirmek için veya bir mayalama maddesi olarak) Sabunlar ve deterjanlar Su artma Di macunlar Pas giderme Di hekimliinde andrma solüsyonlar Di beyazlatclar Temizlik ürünleri Salk Tehlikeleri Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) ile ilikili Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) cilt temas, göz temas ve yutulmas durumunda çok tehlikeli olabilir. Buharlar solunduunda da tahrie neden olabilir. Bu kimyasal cilde, gözlere, aza ve solunum sistemine zarar verebilir. Bu kimyasaln oluturduu potansiyel tehlikeler nedeniyle, kullanrken dikkatli olunmas önemlidir. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) sisine tekrar tekrar veya uzun süreli maruz kalma, kronik göz tahriine, ciddi cilt tahriine veya uzun süreli solunum yolu sorunlarna yol açabilir. Bu potansiyel olarak tehlikeli kimyasal kullanrken salnz korumak için, kiisel koruyucu ekipman (PPE) eklinde dikkatli olmanz önemlidir. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Güvenlii, Kullanm ve lk Yardm Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) verirken, sertifikal bir buhar maskesi kullann. Göz ykama istasyonlar ve güvenlik dular, önlem olarak i istasyonlarnn yaknna yerletirilmelidir. Yüz siperi, eldivenler ve botlar da kullanlmaldr. Fosforik aside kazaen maruz kalma durumunda, aadaki ilk yardm yönergelerini izleyin: Soluma – Temiz hava aln ve derhal tbbi yardm aln. Göz Temas – Varsa kontak lensleri çkarn. Derhal en az 15 dakika bol su ile gözleri ykayn ve tbbi yardm aln. Cilt Temas – Cildi su ve sabunla ykayn. Tahri olmu cildi bir yumuatc ile örtün. Tbbi yardm isteyin. Yutma — Kusturmayn. Bilinci yerinde olmayan kiiye asla azdan bir ey vermeyin. Herhangi bir olumsuz salk semptomu meydana gelirse tbbi yardm aln. Fosforik Asidin Güvenli Saklanmas ve mhas Fosforik asidi serin, iyi havalandrlm, nemden korunan bir alanda saklayn. Oksitleyici maddeler, metaller, yanc malzemeler ve alkaliler gibi uyumsuz maddelerden uzak tutun. Bu kimyasal, güçlü bir polietilen iç ambalaj kullanlarak metalik veya kaplamal sunta bir kapta saklanmaldr. Bu kimyasal federal, eyalet ve yerel çevre kontrol yönetmeliklerine uygun olarak atn. yerinizdeki Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) veya dier kimyasallar hakknda daha fazla güvenlik bilgisine mi ihtiyacnz var? Kapsaml MSDS bilgi kitaplmza buradan göz atn. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) nefes aldnzda sizi etkileyebilir. Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) AINDIRICI KMYASALDIR ve temas gözleri tahri edebilir ve gözleri yakabilir. Solunum Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) burnu, boaz ve cierleri tahri ederek öksürmeye ve hrltya neden olabilir. Svya uzun süre maruz kalmak cildin kurumasna ve çatlamasna neden olabilir. TANIMLAMA Fosforik Asit renksiz, kokusuz bir kat veya kaln, berrak bir svdr. Paslanmaya kar metal, gübre, deterjan, yiyecek, içecek ve su artmnda kullanlr. Akut Salk Etkileri Aadaki akut (ksa vadeli) salk etkileri, Fosforik Aside maruz kaldktan hemen veya ksa bir süre sonra ortaya çkabilir: Temas gözleri tahri edebilir ve yakabilir.Solunum Fosforik Asit burnu ve boaz tahri ederek öksürmeye ve hrltya neden olabilir. Kronik Salk Etkileri Aadaki kronik (uzun süreli) salk etkileri, Fosforik Aside maruz kaldktan bir süre sonra ortaya çkabilir ve aylarca veya yllarca sürebilir: Kanser Tehlikesi Disodium phosphate dodecahydrate (Disodyum fosfat dodekahidrat) Hayvanlarda kansere neden olma yetenei test edilmemitir. Üreme Tehlikesi Fosforik Asit üremeyi etkileme yetenei açsndan test edilmemitir.Dier Uzun Süreli Etkiler Fosforik Asit akcierleri tahri edebilir. Tekrar tekrar maruz kalma bronitin öksürük, balgam ve / veya nefes darl ile gelimesine neden olabilir. Svya uzun süre maruz kalma derinin kurumasna ve çatlamasna neden olabilir. Kaplar ilemek için dier saklama kaplar. Giysileri Fosforik Asit ile kirlenmi içiler derhal temiz giysiler giymelidir. Kirlenmi i kyafetlerini eve götürmeyin. Fosforik Asite maruz kalmann tehlikeleri konusunda bilgilendirilmi kiiler tarafndan kirlenmi i elbiseleri ykanmaldr.Acil kullanm için hemen çalma alannda göz ykama çemeleri bulundurulmaldr. Cilde maruz kalma olasl varsa Acil du olanaklar salanmaldr. Fosforik Asit ile cilt temasnda kimyasal uzaklatrmak için hemen ykayn veya du aln. Vardiyann sonunda, bedenin Fosforik Asit ile temas etmi olabilecek bölgelerini, bilinmeyen cilt temas olsun ya da olmasn ykayn. Fosforik Asidin kullanld, ilendii veya sakland yerlerde yemek yemeyin, kimyasal yutulabilir. Yemek yemeden, içmeden, sigara içmeden veya tuvaleti kullanmadan önce ellerinizi dikkatlice ykayn. Kat Fosforik Asit için, temizlik srasnda tozu azaltmak için bir vakum kullann. KURU SÜPÜRMEYN. Giysi Fosforik Asit ile cilt temasndan kaçnn. Aside dayankl eldivenler ve giysiler giyin. Güvenlik ekipman tedarikçileri / üreticileri, operasyonunuz için en koruyucu eldiven / giysi malzemesi hakknda önerilerde bulunabilir.Tüm koruyucu giysiler (giysiler, eldivenler, ayakkablar, balklar) temiz olmal, her gün hazr olmal ve ie balamadan önce giyilmelidir. Güvenlik ekipman üreticileri, koruyucu malzeme olarak Doal Kauçuk, Nitril Kauçuk, Polivinil Klorür, Viton veya Neopren’i önermektedir. Fosforik Asit dökülür veya szarsa, aadaki admlar uygulayn: Koruyucu ekipman giymeyen kiileri, temizlik tamamlanana kadar dökülme veya sznt alanndan uzaklatrn. Svlar kuru kireç, kum veya soda külü ile kapatn ve bertaraf için kapal kaplara koyun. Toz halindeki malzemeyi en uygun ekilde toplayn ve szdrmaz kaplarda biriktirin.Temizlik tamamlandktan sonra alan havalandrn ve ykayn.Fosforik Asidi TEHLKEL ATIK olarak tutmak ve bertaraf etmek gerekebilir. Çalanlarn döküntüleri temizlemesi gerekiyorsa , uygun ekilde eitilmeli ve donanml olmaldr. OSHA 1910.120 (q) uygulanabilir olabilir. Fosforik Asit ile çalmadan önce, uygun kullanm ve depolanmas konusunda eitim almalsnz. Fosforik Asit, yanc ve patlayc Hidrojen gaz oluturmak için NCE TOZLU METALLER ile reaksiyona girecektir. Temastan kaçnmak için Fosforik Asit saklanmaldr su ile; AMONYAK; ÇAMAIR SUYU; ve iddetli reaksiyonlar meydana geldiinden NTROMETAN. Fosforik Asit GÜÇLÜ BAZLAR (SODYUM HDROKST ve POTASYUM HDROKST gibi) ile uyumlu deildir; YANICILAR; ORGANKLER; ALKOLLER; GÜÇLÜ ASTLER (HDROKLORK, SÜLFÜRK ve NTRK gibi); AMNLER; EPOKSTLER; METALLER; ve METAL TUZLARI. Skca kapatlm kaplarda, CAM, KAUÇUK, PLASTK ve KAPLAMALARDAN uzakta, serin ve iyi havalandrlm bir alanda saklayn.

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