Thermochemical energy storage has the potential to reduce the cost of concentrating solar thermal power. This paper presents recent advances in ammonia-based thermochemical energy storage (TCES), supported by an award from the U.S. Dept. of Energy SunShot program. Advances have been made in three areas: identification of promising approaches for underground containment of the gaseous products of the dissociation reaction, demonstration that ammonia synthesis can be used to generate steam for a supercritical-steam Rankine cycle, and a preliminary design for integration of the endothermic reactors within a tower receiver. Based on these advances, ammonia-based TCES shows promise to meet the $15/kWht SunShot cost target.

Topics
Concentrated solar power, Energy storage, Thermodynamic states and processes, Inorganic compounds, Dissociation reaction, Educational aids
3.
R.
Dunn
,
K.
Lovegrove
, and
G.
Burgess
,
Proc. IEEE
100
,
391
400
(
2012
).
https://doi.org/10.1109/JPROC.2011.2166529
Google Scholar
Crossref
Search ADS
 
4.
G.
Gill
 and
G.
Cowan
,
Adavale
Basin
,
Queensland Underground Salt Cavern Potential
, http://www.innovativeenergy.com.au/saltcavern/article%20for%20mining%20journal.pdf, (
2008
).
Google Scholar
 
6.
R.M.
Dell
 and
D.A.J.
Rand
,
Clean Energy
(Royal Society of Chemistry,
2004
).
Google Scholar
 
7.
M.
Panfilov
,
G.
Gravier
, and
S.
Fillacier
, “
Underground storage of H2 and H2-CO2-CH4 mixtures
,”
10th European Conference on the Mathematics of Oil Recovery
(
2006
).
Google Scholar
Crossref
Search ADS
 
8.
J.B.
Taylor
,
J.E.A.
Alderson
,
K.M.
Kalyanam
,
A.B.
Lyle
, and
L.A.
Phillips
,
Int. J. Hydrogen Energy
11
,
5
22
(
1986
).
https://doi.org/10.1016/0360-3199(86)90104-7
Google Scholar
Crossref
Search ADS
 
9.
Innovative Energy Consulting Pty Ltd
, “
Boree Salt Gas Storage Development Project
,” www.innovativeenergy.com.au,
2015
.
10.
C.
Chen
,
H.
Aryafar
,
G.
Warrier
,
K.M.
Lovegrove
, and
A.S.
Lavine
, “
Ammonia Synthesis System for Producing Supercritical Steam in the Context of Solar Thermochemical Energy Storage
,”
SolarPACES 2015
.
11.
C.
Chen
,
H.P.
Kavehpour
,
K.M.
Lovegrove
, and
A.S.
Lavine
, “
Design of an Ammonia Synthesis System for Producing Supercritical Steam in the Context of Thermochemical Energy Storage
,”
Proc. of ASME Power and Energy Conversion Conf., PowerEnergy2015-49190
(
2015
).
Google Scholar
Crossref
Search ADS
 
12.
J. T.
Richardson
,
S. A.
Paripatyadar
, and
J. C.
Shen
,
AICHE Journal
34
,
743
752
(
1988
).
https://doi.org/10.1002/aic.690340505
Google Scholar
Crossref
Search ADS
 
14.
H.
Kreetz
 and
K.
Lovegrove
,
Solar Energy
67
,
287
296
(
1999
).
https://doi.org/10.1016/S0038-092X(00)00064-5
Google Scholar
Crossref
Search ADS
 
15.
J.D.
Jackson
, “
Consideration of the heat transfer properties of supercritical pressure water in connection with the cooling of advanced nuclear reactors
,”
Proc. 13th Pacific Basin Nuclear Conf.
(
2002
).
Google Scholar
 
17.
C.K.
Ho
,
J.M.
Christian
, and
J.D.
Pye
, “Bladed solar thermal receivers for concentrating solar power,”
USPTO 1435100
,
2014
.
18.
D.L.
Siebers
 and
J.S.
Kraabel
. Estimating convective energy losses from solar central receivers, No. SAND- 84-8717.
Sandia National Lab
.,
Livermore, CA (USA
),
1984
.
This content is only available via PDF.
© 2016 Author(s).
2016
Author(s)