In recent years, lithium containing salts have been studied for thermal energy storage (TES) systems applications, because of their optimal thermophysical properties. In solar power plants, lithium is seen as a way to improve the properties of molten salts used today. Lithium nitrate is a good candidate for sensible heat storage, due to its ability to increase the salt mixture’s working temperature range. In the present research, thermophysical properties characterization of lithium nitrate containing salts, produced in Chile, have been carried out. Corrosion evaluations of carbon and low chromium steels were performed at 390°C for 1000 hours. Thermophysical properties of the salt mixtures, such as thermal stability and heat capacity, were measured before and after corrosion tests. Chemical composition of the salts was also determined and an estimation of Chilean production costs is reported. Results showed that purity, thermal stability and heat capacity of the salts were reduced, caused by partial thermal decomposition and incorporation of corrosion products from the steel.

1.
Ortega
,
A.
,
Escobar
,
R.
,
Colle
,
S.
,
de Abreu
,
S.L.
,
The state of solar energy resource assessment in Chile
.
Renewable Energy
,
2010
.
35
: p.
2514
2524
.
2.
Ushak
,
S.
,
Development of Thermal Energy Storage Materials from Waste-process Salts
.
Energy Procedia
.
57
(
0
): p.
627
632
.
3.
Cabeza
,
L.F.
,
Lithium in thermal energy storage: A state-of-the-art review
.
Renewable and Sustainable Energy Reviews
.
2015
.
42
(
0
): p.
1106
1112
.
4.
Fernandez
,
A.G.
Development of new molten salts with LiNO3 and Ca(NO3)2 for energy storage in CSP plants
.
Applied Energy
.
2014
,
119
(
0
): p.
131
140
.
5.
Medrano
,
M.
, et al.,
State of the art on high-temperature thermal energy storage for power generation. Part 2-- Case studies
.
Renewable and Sustainable Energy Reviews
.
14
(
1
): p.
56
72
.
6.
Kruizenga
,
A.M.
,
Corrosion Mechanisms in Chloride and Carbonate Salts
.
Sandia Report
,
2012
.
SAND2012-7594
.
7.
Wang
,
T.
,
D.
Mantha
, and
R.G.
Reddy
,
Thermal stability of the eutectic composition in LiNO3-NaNO3-KNO3 ternary system used for thermal energy storage
.
Solar Energy Materials and Solar Cells
.
100
(
0
): p.
162
168
.
8.
Gil
,
A.
,
State of the art on high temperature thermal energy storage for power generation. Part 1: Concepts, materials and modellization
.
Renewable and Sustainable Energy Reviews
.
14
(
1
): p.
31
55
9.
Fernández
,
A.
,
M.
Lasanta
, and
F.
Pérez
,
Molten Salt Corrosion of Stainless Steels and Low-Cr Steel in CSP Plants
.
Oxidation of Metals
.
2012
;
78
(
5-6
) p.
329
398
.
10.
Olivares
,
R.I.
,
The thermal stability of molten nitrite/nitrates salt for solar thermal energy storage in different atmospheres
.
Solar Energy
.
86
(
9
): p.
2576
2583
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