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Coolants & brines

Lithium chloride · LiCl

Lithium chloride (LiCl) is a brine salt; this page gives computed density, dynamic viscosity and specific heat capacity for aqueous solutions from 5–20 wt% and -40–40 °C.

Values are computed from CoolProp's incompressible aqueous-mixture correlation (Melinder, 2010) and tabulated over 520 wt% and -4040 °C.

Also known as
Lithium muriate
CAS number
7447-41-8
Tabulated range
520 wt% · -4040 °C
Properties
Density · Dynamic viscosity · Specific heat capacity · Specific gravity
At 20 wt% · 20 °C
reference snapshot
Density
1115.5kg/m³
Density
1.1155g/cm³
Specific gravity
1.118
Viscosity
2.112cP
Specific heat
3257J/kg·K
Explore

Read a value at any point

Move the sliders to interpolate between the tabulated grid points. The readout and chart never go outside the validated 520 wt% and -4040 °C range, and every number is interpolated from the committed table below — nothing is computed from a chemistry model in your browser.

Interactive explorer

Values are interpolated between the tabulated grid points below — sliders stay within the validated 520 wt% and -4040 °C range.

13 wt%
20 °C
Density
1073.4 kg/m³
Density
1.0734 g/cm³
Specific gravity
1.075
Dynamic viscosity
1.592 cP
Specific heat
3537 J/kg·K
Density (kg/m³) vs wt% LiCl at 20 °C — Lithium chloride.
Why it matters

What the numbers tell you

At 20 wt% and 20 °C, aqueous lithium chloride has a density of about 1116 kg/m³ (1.115 g/cm³) — roughly 1.12× the density of water. It also has a dynamic viscosity of about 2.112 cP, against roughly 1 cP for water at the same temperature, and a specific heat of about 3.26 kJ/kg·K, about 78% of water’s 4.18 kJ/kg·K. Those differences carry straight into volume-to-mass conversions, pump and pipe sizing, and the heat needed to change its temperature.

Common grades

A few working strengths

Properties at 20 °C for a handful of concentrations in everyday use, read from the committed grid (interpolated between tabulated points where a grade falls between them). The full table follows below.

wt% LiCl°CDensity kg/m³SGViscosity cPSp. heat J/kg·K
5201026.91.0291.1873914
10201055.81.0581.4123670
15201085.11.0871.7123448
20201115.51.1182.1123257
Freezing point

How low it protects

Freezing point of the aqueous solution against strength, computed from the same correlation and checked against an independently cited value. A 20 wt% lithium chloride solution freezes at about −43.9 °C.

wt% LiClFreezing point °C
5−5.1
10−12.2
15−23.9
20−43.9

Freeze check: 10 wt% computed −12.2 °C against a cited −12.6 °C (tolerance ±1.5 °C). CRC Handbook of Chemistry and Physics - Concentrative Properties of Aqueous Solutions. CRC Handbook of Chemistry and Physics, Concentrative Properties of Aqueous Solutions, Lithium chloride (LiCl) table: 10.0 mass % at 20 degC, freezing point depression = 12.61 degC (freezing point about -12.6 degC). The CRC freezing-point-depression column agrees with the Melinder freeze curve underlying CoolProp's INCOMP::MLI to within 0.5 degC here.

Sources

Where the numbers come from

Every value on this page is computed by a deterministic model — none is entered by hand. The generating method and the references it is checked against:

  • Melinder, A. (2010). Properties of Secondary Working Fluids for Indirect Systems, 2nd ed. International Institute of Refrigeration - the basis of CoolProp's incompressible aqueous lithium chloride (INCOMP::MLI) correlation.
  • CRC Handbook of Chemistry and Physics - Concentrative Properties of Aqueous Solutions (density, freezing-point depression and viscosity at 20 degC)

Model: CoolProp==6.6.0 - incompressible aqueous MLI correlation (Melinder 2010) · Generated 2026-06-07

The committed data file for this page is published as JSON on GitHub under CC BY 4.0.

Validation

Checked against a cited value

The model is cross-checked at one independently cited reference point. The page is published only because this check passes.

Property / pointDensity · 20 wt% · 20 °C
Cited reference value1115 kg/m3
Model computed1115.46 kg/m3
Error vs reference0.041% (tolerance 1%)

CRC Handbook of Chemistry and Physics - Concentrative Properties of Aqueous Solutions. CRC Handbook of Chemistry and Physics, Concentrative Properties of Aqueous Solutions (all data at 20 degC), Lithium chloride (LiCl) table: 20.0 mass % at 20 degC = 1.1150 g/cm3. This measured handbook data is independent of the Melinder correlation underlying CoolProp's INCOMP::MLI.

Full tables

Every tabulated point

Rows are temperature (°C); columns are concentration (wt% LiCl). Read the cell at the intersection. Specific gravity is density divided by the model water reference of 998.2 kg/m³ at 20 °C.

Cells left blank (—) sit below the solution's freezing point at that strength, where it is no longer liquid; those points are not tabulated and the explorer will not interpolate across them.

Density kg/m³
°C \ wt%5101520
-401125.9
-351125.6
-301125.2
-251124.7
-201091.81124.0
-151091.41123.3
-101060.41090.91122.5
-51030.01060.11090.31121.6
01029.91059.61089.51120.6
51029.51058.91088.61119.4
101028.91058.01087.51118.2
151028.01057.01086.31116.9
201026.91055.81085.11115.5
251025.61054.51083.71113.9
301024.21053.01082.11112.3
351022.61051.51080.51110.5
401021.01049.81078.81108.7
Dynamic viscosity cP (mPa·s)
°C \ wt%5101520
-4022.26
-3516.43
-3012.43
-259.613
-206.3037.600
-155.0416.129
-103.4244.1185.036
-52.4202.8483.4304.209
02.0462.4102.9073.574
51.7552.0712.5023.078
101.5241.8042.1812.685
151.3391.5891.9242.369
201.1871.4121.7122.112
251.0611.2631.5351.898
300.9531.1361.3831.719
350.8611.0241.2501.565
400.7790.9241.1311.431
Specific heat capacity J/kg·K
°C \ wt%5101520
-402899
-352929
-302958
-252988
-2032863018
-1533063048
-10361533263078
-53917362433473108
03914363333673138
53913364233873168
103913365134073197
153913366134283227
203914367034483257
253916368034683287
303919369034883317
353921369935083347
403924370935283376
Typical values

Lithium chloride solution properties at 25 °C

At 25 °C, 5 wt% lithium chloride has a density of about 1025.6 kg/m³, a dynamic viscosity of about 1.061 cP and a specific heat capacity of about 3916 J/kg·K. At 25 °C, 15 wt% lithium chloride has a density of about 1083.7 kg/m³, a dynamic viscosity of about 1.535 cP and a specific heat capacity of about 3468 J/kg·K. At 25 °C, 20 wt% lithium chloride has a density of about 1113.9 kg/m³, a dynamic viscosity of about 1.898 cP and a specific heat capacity of about 3287 J/kg·K.

Limitations

Before you use these numbers

  • CoolProp's incompressible aqueous lithium chloride correlation (INCOMP::MLI), built on Melinder (2010). Tabulated for 5-20 wt% LiCl over -40 to 40 degC. Lithium chloride is a deep-cold secondary brine and desiccant; the Melinder incompressible path is used (over the Laliberte electrolyte correlation) because it carries the freezing line. The freezing point falls steeply with strength, so the table is mostly blank at low concentration and cold temperature: each blank cell sits below the freezing line at that strength, where the solution is no longer liquid, and the explorer will not interpolate across it. The 20 wt% ceiling stays below the model window (about 24 wt%) and below saturation. Concentrations are anhydrous LiCl. Values are for preliminary design; verify against vendor data for critical service.
  • Values are tabulated only inside the 520 wt% and -4040 °C ranges shown; the correlation is not extrapolated beyond them here.
  • Figures are for a pure lithium chloride–water system. Commercial grades contain impurities (for example chloride in some caustic grades) that shift density and viscosity; check the supplier's data sheet for a specific product.
  • Use for preliminary design; verify for critical service.
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