InterSolar informal 3a
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Transcript of InterSolar informal 3a
PLM™ batteries for low-cost
behind-the-meter storage applications
July, 2015
Intersolar, San Francisco
Ivan Menjak
Sr. Director, Bus. Development and Marketing
Energy Power Systems
Battery Storage: 240 GW Global Capacity by 2030*
Grid-connected energy storage market is set to “explode” to an annual installation
size of 6 GW in 2017 and over 40 GW by 2022
Stationary Energy Storage will grow to $2.8 Billion annual market in 2020
Batteries for Micro-hybrids will grow to a $6.1 Billion annual market in 2020
Global market for energy storage for will grow to 1,040 GWh by 2030 (>$400B)
Energy storage is the “Holy Grail” in addressing the intermittency problem of renewables
Battery storage solutions are a “game-changer”
Texas utility Oncor will seek state regulatory approval for up to $5.2 Billion in distribution
grid-connected batteries, with deployment set to start in 2018 – 15GWh of batteries!
2
Key Question: What Are Barriers to Widespread Adoption?
1. Initial Cost – Minimize financial risk, accelerate payback time, open up the market size
2. NPV of cost and benefits – $/kWh throughput, recycling value (or cost) at end of life
3. Validated Performance – Will they last 10 years? Bankability. Replacement costs. Future-proof.
4. Safety and Acceptance – Customers, Regulators, and Environmentalists; On-site permitting
5. Connect Multiple Value Streams – Improve ROI and drive faster adoption; more power, more life
3
Factors Impacting Adoption - Analysis
Li-Ion
HP, high life
Mid-grade
HE, low life
Cost varies $350-
$750/kWh
Tesla disruption
Exotics
Flow, Zn, Fe, V,…
Promising low
cost in the future
Advanced Lead
$150/kWh now
Lets look at the
model more
deeply
Typically used for
grid-scale, but not
the key driver in
residential
Payback time
more important in
behind-the-meter
applications –
minimizes financial risk
Cycle life plus
calendar life (can
Li-Ion last 10
years?)
Life at high rates
is also important
Advances in PbA
(PLM™) are
enabling
System design to
minimize
replacement cost
Level of comfort
(residential,
commercial, grid)
History and
precedence
Permitting (fire
departments)
Proven
electrochemistry
of advanced PbA
Need both high
and low rate
capability
Behind-the-meter
aggregation
Multiple cycling
modes (DOD,
rate)
Controls features
maximize value
Initial Cost NPV Life Safety Value Streams
4
PLM™ Battery - Advances in Cycle Life of Low Cost Batteries
Gen 1 – 1250 Cycles @100%
DOD, 2C rate
$150/kWh initial cost
Gen 2 – 2000 Cycles @100%
DOD, 2C rate PLUS 30% higher
initial energy at the same cost to
produce.
Higher Energy + Longer Life =
70% More Energy
throughput at the same cost
Gen 1
Gen 2
70% More Energy
Throughput
5
6 Storage
“Profiles”
Provide direct comparisons
of various battery
chemistries and their ability
to provide multiple value
streams
Energy storage is an asset.
Maximize its value by using
it more.
POWER
CYCLE LIFE
ENERGY
Sou
rce:
Gri
d S
tora
ge C
on
sult
ing
Battery-specific Analysis by Application Profile
6
A detailed analysis of the specific application is required to
determine the NPV life-cycle cost
6-factor Analysis Provides Insights on Battery Chemistry & ROI
Iterative Cost Model
Reduced capacity over life vs. a fixed energy
requirement results in a higher DOD use
The higher DOD faster capacity reduction
Iterations calculate incremental and
accumulated capacity loss with more accuracy
The analysis introduces a “replacement event”
when the capacity is no longer meets
application need or at “end of life”
This analysis includes:
Cycle life
Varying Depth of Discharge with
capacity loss
C-Rate (power to energy ratio)
Round Trip Efficiency
Calendar Life
Initial and replacement cost
7
Profile 2 – Peak Shaving and Demand Charge Management
Analysis: Grid Storage Consulting - Data from various sources and subject to change
8
Profile 3 – Renewable Ramping and Firming
Analysis: Grid Storage Consulting - Data from various sources and subject to change
9
Multi-Value Stream Comparisons
10
0.0
5.0
10.0
15.0
20.0
25.0
30.0
1 - Bulk power 2 - Peak Shaving 3 - Ramping 4 - Micro Grid
Net Present Cost in Cents per Delivered kWh
PLM Mid-cycle LiB High-cycle LiB Tesla
• Tesla’s disruptive
pricing easily beats
competitive Li-ion
systems
• Only advanced
Lead-Acid retains
value advantage
Analysis Takeaways
Reduce dependence on the gridMaximize self-generation of solar panels and self-consumption, optimize rate tariffs and reduce your
electric bill
Power quality for high-end consumer electronicsRESS output is clean power to support most sensitive devices
Emergency Back-up power during black-outs and power outagesBe prepared for anything. PLM™ RESS provides enough energy for your essential needs during an
emergency.
Off-grid sustainability in remote areasMaximize use of solar investments, power to the people
Utility program participationEnables aggregation of distributed energy resources – ongoing revenue stream
Value Propositions and Use Cases for Residential PLM
11
Residential Storage – PLM and Tesla Comparison
PLM™ Battery 6kWh PLM Pack
5” profile
25.6 liters/kWh
48V, no liquid
~$1,900
Tesla Powerwall 7kWh Power Wall
7” profile
28.4 liters/kWh
400+V, liquid
$3,00018
PLM™ is:
Lower Cost
Longer Life
Slimmer
Safer
Better Looking ;-)
Commercial and Utilitiy Scale Rack Configurations
13
384V 24kWh Racks
For Behind-the-Meter
480V 29kWh Racks
For industrial and
ISO container storage
Lobby Installation example, 100kWh20’ ISO
Scalable, Flexible, Low Cost
960V, 550kWh, 1+MW
Founded in 2011 by Townsend Ventures and Subhash Dhar
$25M initial VC investment
Headquartered in Troy, Michigan; 65 employees
Assembled an unmatched team of brilliant and highly experienced scientists,
engineers and manufacturing experts in the energy storage industry
Awards:
Emerging Company of the Year (2014 - Michigan Energy Innovation Council )
50 Companies to Watch (2015 - Michigan Celebrates Small Business)
EPS is building a high-volume manufacturing operation in Michigan,
with a target of Q3 2016 for start of large-scale production
Initial Production Plant
About EPS - A Start-up With a Great Start
14
POWER: Excellent cold-cranking and high-rate discharge; high
Dynamic Charge Acceptance (DCA) for fast-charge and hybrid
applications. Up to 1,200 W/kg pulse power is achievable
LIFE: PLM offers significantly better cycle life in deep-discharge
and partial state-of-charge (PSOC) operation
MULTIPLIED!: PLM offers major competitive advantages
Based on proven, safe and reliable electro-chemistry
Proprietary microstructure, morphology, electrode and battery design reduces internal resistance, corrosion, sulfation and stratification
Abundantly available and fully recyclable low-cost materials based on existing manufacturing processes
A new class of advanced low cost battery
with significantly improved power and cycle life
Planar Layered Matrix™ Technology
15
So, what is the best energy storage solution?
The one that delivers the combination of:
Low initial cost to minimize financial risk
Best NPV for a given application
Meets multiple value streams, power and energy over life
PLM™ Battery:
Highly competitive in cost of energy delivered over 10-year evaluation
Lower cost “future proofs” initial capital investment
Flexible storage form factors and voltage configurations
Ease of permitting accelerates wide spread deployment
Global recycling infrastructure unmatched by any other chemistry
Safe, proven, and reliable chemistry with 150 years of service
16
Contact:
Ivan Menjak
248-703-6146
www.energypowersystems.com
Visit us at booth #8039
Analysis:
Bill Capp
Grid Storage Consulting