Modeling of Salt Mixtures: Difference between revisions

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== Salt mixtures – terminology ==
Author: [[user:MSteiger|Michael Steiger]], [[user:ANicolai|Andreas Nicolai]]<br>
English version by [[user:CGerdwilker|Christa Gerdwilker]]
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back to [[SaltWiki:Community_portal]]
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= Salt mixtures – terminology =


Salt mixtures are solutions or solid material mixtures of salts. Of particular interest are the properties of dissolved mixtures, i.e. salt solutions. Therefore, in this article salt mixtures are referred to as a solution of one or more salts.


Different types of salt mixtures can be defined e.g. a solution of one cation and one anion is a binary solution, a solution of two cations and one anion or one cation and two anions forms a ternary solution, etc.  
Salt mixtures can be either a mixture of different salts or solutions of them. Of particular interest are the properties of dissolved mixtures, i.e., salt solutions. Therefore, for this article [[Salt mixtures|Salt mixture]] is understood to be a solution of one or more salts.  


Different types of salt mixtures can be defined, e.g., a solution of one cation and one anion is a [[binary solution]], a solution of two cations and one anion or one cation and two anions forms a [[ternary solution]], etc.


== Definition of a salt mixture ==


== Definition of a salt(s) solution ==


A salt mixture is determined by the type and concentration of the ions it contains. A common concentration measurement for the definition of salt mixtures is molarity. It gives the amount of the dissolved ion in relation to the mass of the solute (water).


A binary 1 molar Na2SO4 solution consists of a mixture of m_Na = 2 mol/kg, m_SO4 = 1 mol/kg. A ternary solution, produced from 1 mol NaCL and 3 mol NaNO3 would result in the mixture m_Na = 4 mol/kg, m_Cl = 1 mol/kg, m_NO3 = 1 mol/kg.  
A salt(s) solution is determined by the type and concentration of the ions it contains. A common concentration measurement is its molality (m), the ratio of the number of moles of salt to the mass of solute (m/kg), usually water.  This is not to be confused with molarity (M) which is the ratio of the number of salt moles to the volume of water (m/liter). For very dilute solutions, both concentration values would be similar, but for concentrated solutions, the density of the salt solution is different to that of water.  


==  
For example, a binary 1 molal  Na<sub>2</sub>SO<sub>4</sub> solution consists of a mixture of Na = 2 m  (mol/kg), SO<sub>4</sub> = 1 m (mol/kg). In the case of a ternary solution, produced from 1 mol NaCl and 3 mol NaNO<sub>3</sub> would result in the mixture Na = 4 m, Cl = 1 m, NO<sub>3</sub> = 1 m.
Properties of salt mixtures ==
 
= Properties of salt mixtures =




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The following listed properties are functions of temperature and contents (type of ions and their concentration).
The following listed properties are functions of temperature and composition (type of ions and their concentration).


*Concentration of solution (?)
*Solution density
*Water activity
*Water activity
*Activity of ions
*Activity of ions
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*Thermal conductivity
*Thermal conductivity
*Specific thermal capacity
*Specific thermal capacity
Viscosity
*Viscosity
 
[[Category:Steiger,Michael]][[Category:Nicolai,Andreas]] [[Category:Gerdwilker,Christa]]
[[Category:Modeling]][[Category:R-ANicolai]][[Category:editing]]

Latest revision as of 19:06, 31 December 2014


Author: Michael Steiger, Andreas Nicolai
English version by Christa Gerdwilker

back to SaltWiki:Community_portal

Salt mixtures – terminology[edit]

Salt mixtures can be either a mixture of different salts or solutions of them. Of particular interest are the properties of dissolved mixtures, i.e., salt solutions. Therefore, for this article Salt mixture is understood to be a solution of one or more salts.

Different types of salt mixtures can be defined, e.g., a solution of one cation and one anion is a binary solution, a solution of two cations and one anion or one cation and two anions forms a ternary solution, etc.


Definition of a salt(s) solution[edit]

A salt(s) solution is determined by the type and concentration of the ions it contains. A common concentration measurement is its molality (m), the ratio of the number of moles of salt to the mass of solute (m/kg), usually water. This is not to be confused with molarity (M) which is the ratio of the number of salt moles to the volume of water (m/liter). For very dilute solutions, both concentration values would be similar, but for concentrated solutions, the density of the salt solution is different to that of water.

For example, a binary 1 molal Na2SO4 solution consists of a mixture of Na = 2 m (mol/kg), SO4 = 1 m (mol/kg). In the case of a ternary solution, produced from 1 mol NaCl and 3 mol NaNO3 would result in the mixture Na = 4 m, Cl = 1 m, NO3 = 1 m.

Properties of salt mixtures[edit]

The physical, chemical and thermodynamic properties of salt mixtures can, in part, be measured directly, in part be identified indirectly and otherwise only be estimated or predicted through the use of modeling.


List of properties[edit]

The following listed properties are functions of temperature and composition (type of ions and their concentration).

  • Solution density
  • Water activity
  • Activity of ions
  • Osmotic potential
  • Thermal conductivity
  • Specific thermal capacity
  • Viscosity

an atom or molecule with a positive electrical charge

an atom or molecule with a negative electrical charge.

concentration given as amount of substance (mol) of the dissolved substance per kilogram solvent; unit: mol•kg-1.

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