Renewable Energygy gy and the Need for Energy Storage
Transcript of Renewable Energygy gy and the Need for Energy Storage
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UNM ME 217 Energy, Environment & Society
Renewable Energy and the Need for Energy gy gyStorage
November 8, 2011Steve Willard, P.E
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Renewable Energy and the Need for Energy gy gyStorage
Wh t f t i t• Where we get our energy from, constraints and the mandates for the future
R l h t Utiliti h t d t k th• Rules – what Utilities have to do to keep the Energy Grid operating
• Impacts of Renewables• Impacts of Renewables
• Need for Storage
• Solutions - What’s available - Whats being done
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The US Energy
s
gyGrid – Current
Snapshots
Transmission Network – very interconnected
Generation Assets-mostly relying on fossil based resources
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What's Changing?– Drive to Renewables
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Mandates for Renewable Energy - Changing the Mix of Resources
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New Mexico’s Renewable Portfolio Standard
3,000
NM RPS•2011 – 10% of retail load
2,500
3,000
•2015 – 15%•2020 – 20%
NM RPS 1,500
2,000
GW
h
NM RPS Distributed GenerationBreakdown or “C t ”
1,000
G
“Carve outs”•2011 - 1.5% of total RPS •2015 - 3%% -
500
2008 2011 2014 2017 2020 2023 2026
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Current Net Electricity Generation by Energy
Energy SourceNet Electricity
Generation (GWh)Percent of Total Net Generation
CCoal 2,000,000 48.5Petroleum liquidsa 31,200 0.8Petroleum coke 14,200 0.4N t l 877 000 21 3Natural gas 877,000 21.3Other gasesb 11,600 0.3Nuclear 806,000 19.6Hydroelectric 248 000 6 0Hydroelectric 248,000 6.0Other renewablesc 124,000 3.0
In a general sense this has to
Hidden Costs of Energy: Unpriced Consequences of Energy Production and Use (2010), National Academies Press
sense this has to change to 20% by
2020
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Rules of the Game – Accommodating Renewables is not easy
• Resources have to match load – alwaysT i i L l Hi h V lt F d l (NERC)• Transmission Level – High Voltage – Federal (NERC) Jurisdiction
• Mistakes can cascade and cause big problems – refer to th i t t d T i i N tthe interconnected Transmission Networ
• Straying from this invokes serious penalties ($M enforced by Federal Regulators)’
• Customer Loads are very sensitive (and growing more sensitive) and have to be served with quality powerwith quality power • Distribution Level – Lower Voltages
• NMPRC Jurisdiction• NMPRC Jurisdiction
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Key Rule – Load must match output of generation resources 24/7/365/86400resources 24/7/365/86400
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Wind Variability – Transmission Level Impacts
150
200
Wind Farm Output
50
100
-50
0
10/16/2003 9:41:18 AM 10/17/2003 9:41:18 AM24.00 Hour(s)
-100
-150 Area Control Error (ACE).
NERC CPS-2: The average ACE for at least 90% of a clock-ten-minute periods during a calendar month must beNERC CPS 2: The average ACE for at least 90% of a clock ten minute periods during a calendar month must be within a specific limit. PNM’s current limit is 38 MW.
ACE deviates by more than 40 MW as a result of rapid changes in wind power output, affecting CPS-2 for this sample month (average CPS-2 was still above 90%)
10
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How the Match is Made – Resources Used to Match Load
Coal Resources have to be turned downbe turned down
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Solar PV Variability - Distribution Level Impacts Prosperity Energy Storage 11/5-6/2011p y gy g
A i l 1MW PVA single 1MW PV resource (distributed generation) can
push a feeder into high penetration
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Potential Solution to Renewable Intermittencyy
Match Load to Resource •Shape the Load to Resource
•Load Modification - Invoke Real Time Pricing (Smart Grid) •Load Reduction
•Shape the Resource to the Load •Curtail Renewables•Energy Storage
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Storage TypesBatteries
Multiple types of chemistries - Lead Acid- Lithium Ion- Flow Batteries - Sodium Sulfur- Others
ThermalThermal Ice Chilled water/hot waterMolten Salt (CSP application)Molten Salt (CSP application)
FlywheelsSupercapacitors/UltracapacitorsCompressed Air Energy StorageCompressed Air Energy Storage
(CAES)Pumped Hydro
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Storage Costsg
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Battery Storage
•Numerous Chemistries Emerging – some being Substantiated
Lithi B d•Lithium Based
•ZN Air
•Liqud Metal•Liqud Metal
•Zn BR
•NaSNaS
•Va Redox
•Advancements from Traditional
•Advanced Lead Acid
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Compressed Air Energy Storage
• Large Transmission scale storage
• Requires appropriate geology to tsupport
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Wh t’ b i d ?What’s being done?PNM/UNM/EPRI Smart Grid Demo Feeder ModelingCommunication/control system architecture
PNM/UNM/DOE – Prosperity Energy StorageOne of 16 DOE Smart Grid Storage Demonstration Projects
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PNM/DOE Smart Grid Demonstration Objectives
Create a dispatchable, renewables-based peaking resource
Combine PV and storage at a substation to achieve a minimum
j
Combine PV and storage at a substation to achieve a minimum of 15% peak-load reduction on an associated distribution feeder
Demonstrate that this combination can mitigate voltage-levelDemonstrate that this combination can mitigate voltage level fluctuations as well as enable load shifting
Quantify and refine the associated performance requirements, operating practices and cost:benefit particularly for regionsoperating practices, and cost:benefit, particularly for regions well-suited for distributed generation
Generate, collect, analyze and share resultant data
Enable distributed solutions that reduce GHG emissions through the expanded use of renewables
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Modeling – Key to Field SuccessSuccess
UNM Base Effort
Utilizing Leading Edge Distribution System Models
Allows understanding of control methodologies
Allows quicker assessment of benefitsAllows quicker assessment of benefits
Allows results to be transferable to the Utility Industryy
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Feeder to be ModeledNormally Open
switch to Sewer Plant 14
Normally closed switch
Normally closed
switch to
St di
Sewer Plant Substation Feeder 14
Switchgear
PNM
Sewer Plant 14 closed switchswitch to Studio 14 To Studio Substation-
Feeder 14
Studio Substation –Feeder 14
PNM installed
PV + Battery
Fraunhoffer Solar Test Facility
Phase 1 Residential
Battery Storage
Test Facility
Albuquerque
Site for MdS/NEDO commercial Energy Efficient building
Residential (Under Construction)
Albuquerque Studios
Town Center
Energy Efficient building Construction)
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Load shifting algorithmsLoad shifting algorithmsSeveral strategies for load
shifting:• Set time charge/ set time
discharge• Estimation of peak load ½• Estimation of peak load ½
day ahead• Estimation of PV energy
production based on the weather report and other
information• Estimation based on
TOD/pricing info 1-1½ day aheadahead
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Modeling: Shifting algorithmModeling: Shifting algorithm
241-4908
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Prosperity Energy Storage Project FeaturesProject Features
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Schematic of theSchematic of the Prosperity System
500kW Central Inverter
Fixed Voltage 800 VDC (+/‐400VDC)
835kVA, 750kWGrid‐Tied Inverter
BESS Master Controll
er
BES System supplied byEPM/Ecoult
(+/ 400VDC)
250kW DC Converter with Power Regulator
500kW DC Converter with Power Regulator
er
500kWp Solar PV Array
Peak Shifting – 990 kWhr Containerized Advanced Carbon VRLA
Battery (6 x CABS)
Power Smoothing – 500kW Containerized VRLA UltraBatteries
(2 x CABS)
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Details – Data Acquisition System Specification/Engineering Archtecture Diagram
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Applying Storage – Commissioning Data Shifting and Smoothing Batteries Commissioned andShifting and Smoothing Batteries Commissioned and
dispatching to grid - data from Saturday 10/15/11
Data set from 9/22-9/23
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• Algorithm DevelopmentNext Steps - Implementing Test Plans
go t e e op e t• Shifting – coded V1 in place – will test various inputs and filters throughout
test period
• Smoothing – data structure assembled to align next day forecast with• Smoothing – data structure assembled to align next day forecast with historical load/price history
• extensive data correlation of historical price/load history completed
• Result forecasted to be multi variant /optimization based algorithm• Result forecasted to be multi-variant /optimization based algorithm –extensive effort – start simple and grow in complexity
• Test Plans Aligned to seasonal load and PV output
• First of five test plans being initiated• Smoothing – Oct through Dec 2013
• Peak Shaving – winter and summer peaking period 2012-2013Peak Shaving winter and summer peaking period 2012 2013
• Firming – summer 2012
• Arbitrage – Shoulder periods throughout test period
All of the above summer 2013• All of the above – summer 2013