ESS for Thailand Future Power Grid Energy Absolute PCL. Supa Waisayarat
Energy Storage System (ESS) 2
Type of Energy Storage System (ESS) Source: PwC 2015 3
Application of ESS LAES or CES Li-ion Battery Source: US DOE/EPRI, 2015. Note: Zn-Cl = zinc chlorine flow battery; Zn-Air = zinc air flow battery; ZBFB = zinc bromine flow battery; VRFB = vanadium redox flow battery; PSB= polysulfide bromine flow battery; NaS = sodium sulphur; NaNiCI = sodium nickel chloride; NiCd = nickel cadmium; NiMH = nickel metal hydride; SMES = superconducting magnetic energy storage.; LAES or CES = liquid air energy storage, cryogenic air energy storage 4
ESS Response by Application Source: South California Edision 5
Round-Trip Efficiency of ESS Source: NREL 2008 6
Thailand & Asia Power Grid 7
Current & Future Thailand Power Grid Current 500 kv Transmission Line Future 500 kv Transmission Line 2024 Mesh grid Long corridor Source: Electricity Generating Authority of Thailand (EGAT) 8
ASEAN Current & Future Power Grid Source: ENESCAP.ORG 9
Asia Power Grid Source: Global Energy Interconnection Development and Cooperation Organization (GEIDCO) 10
Thailand Grid Expansion Plan and Cost Western & Southern 63,200 MTHB (1,900 M$) North-Eastern & Lower-Northern 94,040 MTHB (2,800 M$) Upper-Northern 12,240 MTHB (370 M$) Southern 35,400 MTHB (1,100 M$) Mainland to Samui island Assessing Cost To support the growth of both supply and demand. Are there any alternative solutions? Source: Energy Policy and Planning Office [http://www.eppo.go.th/images/power/pdf/aec_plan.pdf] 11
Benefits of Utility-scale Energy Storage System (ESS) 12
Application of ESS in Each Sector 13
Energy storage, the future of industry 4.0 It is an approach to provide distributed energy resources throughout the energy value chain by deploying technologies close to the end users of power. It often consists of 3 elements: Decentralized Generation DG Energy Storage System ESS Smart Metering and Smart Grid 14
Fossil Fuel Era Renewable Energy Era Source: Rocky Mountain Institute 15
ESS Application for Excess Energy Storage Excess solar power can be stored in battery and discharge later to supply load equipment during low solar generation PV module Local load Battery Charging Battery PV module PCS Battery Charging PV Inverter Local load Grid Solar power Battery Discharging Grid Battery PCS Battery Discharging 16
ESS Application for Solar power generation smoothening Solar power is very unstable and uncontrollable, in cloudy or rainy hours solar power can drop drastically to affect grid quality, thus storage is needed to compensate the unstable solar power, Energy Storage System can discharge to compensate unstable solar power PV module PV Inverter Local load Battery Charging Battery Discharging Solar power Battery PCS Power sensor Grid 17
Power Generation Conventional & Renewable Power Plant Renewable Power Plant Solar & Wind Excess Power Storage and Supply Smoothening output & control ramp rate Source: ABB Energy Storage Solutions 18
Load ESS application for Peak support Battery absorb power from grid when load consumption is low, and discharge power to grid when load consumption is high to schedule power source more economically Battery Discharging Battery PCS Grid Battery Charging Battery Charging Battery PCS Grid T(hrs) 19
Consumers minimize cost impact of unserved energy & peak shaving Power Outage Impacted Reduction Essential Power Back-up Peak-demand reduction Or ToU power shifting Source: ABB Energy Storage Solutions 20
Consumers Source: edf 21
Transmission Line - Maximize grid utilization Capacity limited reduction No additional transmission required for peak load Power quality on short-duration Quick response Battery ESS/UPS or Fast Black start Source: ABB Energy Storage Solutions 22
ESS Application for Hybrid Generation or Residence Source: SolaX Power hybrid energy storage systems 23
Application of ESS in Each Sector Source: Siemens 24
Benefits of Utility-scale Energy Storage Sizing & Applications RTO : Regional Transmission Organization ISO : Independent System Operator Source: Rocky Mountain Institute s The Economics of Battery Energy Storage 25
US Power Grid Cost Saving by ESS Source: Navigant Research 26
Overall Benefits Source: Clean Energy Group 27
Future Power Grid with ESS 28
Cost of Energy Storage System Utility-Scale ESS cost trends by Technology (Global Averages: 2014-2024) Source: Navigant Research 29
Cost of Battery ESS Source: DNV-GL 30
Cost of Lithium Ion Battery ESS Source: Bloomberg New Energy Finance 31
Lithium Ion Battery ESS Market trend Source: Bloomberg 32
Potential Location of ESS V2G Source: EPRI 33
Benefit of Power Grid with ESS Less additional power plants Lower Grid expansion investment Easier in Control & Relay setting Better System Average Interruption Duration Index (SAIDI) Better System Average Interruption Frequency Index (SAIFI) Better Power Quality Less CO2 Emission by Running Conventional power plant at Peak efficiency and maximum utilize RE X 34
Grid Energy Storage Policies & Alliances Source: International Energy Agency (IEA) Technology Roadmap: Energy Storage
Grid Energy Storage Projects USA Australia Germany Japan Korea ASEAN NEXT? 36
Current & Future Thailand Power Grid Current 500 kv Transmission Line Future 500 kv Transmission Line 2024 Mesh grid Long corridor Source: Electricity Generating Authority of Thailand (EGAT) 37
ESS as Option for Power Grid Current 500 kv Transmission Line Future 500 kv Transmission Line Maybe ESS 38
Example Case for the Southern of Thailand 39
Southern of Thailand Electricity Supply Power Plant Fuel MW Rachaprapha Hydro 240 Banglang Hydro 72 Bansanti Hydro 1.5 Jana 1 Natural Gas 710 Jana 2 Natural Gas 766 Kanom 1 Natural Gas 678 Kanom 2 Natural Gas 70 Krabi Oil 315 Other SPP 29 Other VSPP 177 Total 3,059 Krabi Coal 800 MW Tepha Coal 2x1,000 MW No Go 70,000 + 150,000 Billion THB (7,000 M$) 40 Firm 2,539 MW 2019 Demand Peak 3,256 MW Supply Side Shortage 717 MW
Southern of Thailand Electricity Supply 2019 Demand Peak 3,256 MW Supply Side Shortage 717 MW
Southern of Thailand Electricity Supply Power Plant Fuel MW Rachaprapha Hydro 240 Banglang Hydro 72 Firm 2,539 MW Bansanti Hydro 1.5 Jana 1 Natural Gas 710 Jana 2 Natural Gas 766 Kanom 1 Natural Gas 678 Kanom 2 Natural Gas 70 Krabi Oil 315 2019 Demand Peak 3,256 MW Other SPP 29 Other VSPP 177 Total 3,059 ESS @ 3,500 MWh (2-3 hrs peak support) 30-35 Billion THB (1,000 M$) (@300 US$/kWh) Innovative solution 42 Supply Side Shortage 717 MW
Innovative Solution for the South Battery ESS 3,500 MWh No CO2 Emission Lower Costs Stable Electricity Reliable Technology Short Construction Period Self-Sufficient Community Friendly Environmental Friendly Coal Fired Power Plant Project At Thepa 1,000 MW x 2 and Krabi 800 MW 43
Battery the Critical Link of Power Network Power Generation
THANK YOU 45