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Sandia National Laboratories is a multi-program laboratory managed and operated by Sandia
Corporation, a wholly owned subsidiary of Lockheed Martin Corporation, for the U.S. Department of
Energy’s National Nuclear Security Administration under contract DE-AC04-94AL85000.
Concentrating Solar Power and Thermal Energy Storage
Clifford K. Ho Sandia National Laboratories Concentrating Solar Technologies Dept. Albuquerque, New Mexico [email protected], (505) 844-2384 SAND2016-8168 PE
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Problem Statement
What is Concentrating Solar Power (CSP)?
Thermal Storage Options and Challenges
Summary
Outline
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Problem Statement
Current renewable energy sources are intermittent Causes curtailment or negative
pricing during mid-day
Cannot meet peak demand, even at high penetration
Available energy storage options for solar PV & wind Large-scale battery storage is
expensive
$0.20/kWhe - $1.00/kWhe
Compressed air and pumped hydro – geography and/or resource limited
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Source: California Independent System Operator
The “Duck Curve”
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Need
Renewable energy technology with reliable, efficient, and inexpensive energy storage
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Concentrating solar power (CSP) with
thermal energy storage
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Problem Statement
What is Concentrating Solar Power (CSP)?
Thermal Storage Options and Challenges
Summary
Outline
5
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What is Concentrating Solar Power (CSP)?
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Conventional power plants burn fossil fuels (e.g., coal, natural gas) or use
radioactive decay (nuclear power) to generate heat for the power cycle
Coal-Fired Power Plant
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What is Concentrating Solar Power (CSP)?
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CSP uses concentrated heat from the sun as an alternative heat source for the
power cycle
Concentrating Solar Power
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CSP and Thermal Energy Storage Concentrating solar power uses mirrors to concentrate the sun’s energy onto a
receiver to provide heat to spin a turbine/generator to produce electricity
Hot fluid can be stored as thermal energy efficiently and inexpensively for on-demand electricity production when the sun is not shining
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Commercial CSP Plants
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Ivanpah Solar Power Tower California (near Las Vegas, NV)
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http://news.nationalgeographic.com
392 MWe direct-steam power tower plants in
Ivanpah, CA. 170,000 heliostats. Opened
February 2014
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Gemasolar (near Seville, Spain)
1st commercial power tower (19 MW) in the world with 24/7 dispatchable energy production (15 hours of thermal storage using molten salt). Commissioned in May 2011.
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9/25/11
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Crescent Dunes Tonopah, Nevada
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110 MWe molten-salt power tower under construction by SolarReserve
near Tonopah, NV. Construction from 2011 – 2015.
~3 km
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Solana Generating Station
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280 MW parabolic trough plant
Phoenix, AZ (Gila Bend)
Started 2013
6 hours of molten-salt storage
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Problem Statement
What is Concentrating Solar Power (CSP)?
Thermal Storage Options and Challenges
Summary
Outline
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Types of Thermal Energy Storage
Sensible (single-phase) storage Use temperature difference to store
heat
Molten salts (nitrates, carbonates, chlorides)
Solids storage (ceramic, graphite, concrete)
Phase-change materials Use latent heat to store energy (e.g.,
molten salts, metallic alloys)
Thermochemical storage Converting solar energy into chemical
bonds (e.g., decomposition/synthesis, redox reactions)
Molten-salt storage tanks at Solana CSP
plant in Arizona. Credit: Abengoa
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Sandia Research in Thermal Energy Storage
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Corrosion studies in
molten salt up to 700 C
in “salt pots”
Ceramic particle storage and heating with
falling particle receiver
b
c
Reduced at 1400 C
700 C, 500
hours
As
received
Thermochemical particle storage with
reduction/oxidation of perovskites
Component testing with molten-salt test loop
Latent phase-change material
storage in dish engines
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Particle Receiver Designs – Free Falling
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On-Sun Tower Testing
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Over 600 suns peak flux on receiver
(July 20, 2015)
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On-Sun Tower Testing
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Particle Flow Through Mesh Structures
(June 25, 2015)
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Problem Statement
What is Concentrating Solar Power (CSP)?
Thermal Storage Options and Challenges
Summary
Outline
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Summary
Renewables require energy storage for increased penetration
Concentrating solar power provides utility-scale electricity AND energy storage
Thermal energy storage options
Sensible heat storage (molten salt, particles)
Latent heat storage
Thermochemical storage
Cost of CSP with storage is currently cheaper than photovoltaics with large-scale battery storage
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Backup Slides
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Comparison of Energy Storage Options
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Energy Storage Technology
Solid
Particles
Molten Nitrate
Salt
Batteries Pumped
Hydro
Compressed
Air
Flywheels
Levelized Cost1
($/MWhe) 10 – 13 11 – 17 100 – 1,000 150 - 220 120 – 210 350 - 400
Round-trip
efficiency2
>98%
thermal
storage
~40%
thermal-to-
electric
>98% thermal
storage
~40%
thermal-to-
electric
60 – 90% 65 – 80% 40 – 70% 80 – 90%
Cycle life3 >10,000 >10,000 1000 – 5000 >10,000 >10,000 >10,000
Toxicity/
environmental
impacts
N/A
Reactive with
piping
materials
Heavy metals
pose
environmental
and health
concerns
Water
evaporation/
consumption
N/A N/A
Restrictions/
limitations
Particle/fluid
heat transfer
can be
challenging
< 600 °C
(decomposes
above ~600
°C)
Very
expensive for
utility-scale
storage
Large
amounts of
water required
Unique
geography
required
Only provides
seconds to
minutes of
storage
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Thermal Energy Storage Goals
Capable of achieving high temperatures (> 700 C)
High energy and exergetic efficiency (>95%)
Large energy density (MJ/m3)
Low cost (<$15/kWht; <$0.06/kWhe for entire CSP system)
Durable (30 year lifetime)
Ease of heat exchange with working fluid (h > 100 W/m2-K)
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Siegel (2012)