BEGIN:VCALENDAR
VERSION:2.0
PRODID:-//HILT CRC - ECPv6.15.18//NONSGML v1.0//EN
CALSCALE:GREGORIAN
METHOD:PUBLISH
X-WR-CALNAME:HILT CRC
X-ORIGINAL-URL:https://hiltcrc.com.au
X-WR-CALDESC:Events for HILT CRC
REFRESH-INTERVAL;VALUE=DURATION:PT1H
X-Robots-Tag:noindex
X-PUBLISHED-TTL:PT1H
BEGIN:VTIMEZONE
TZID:Australia/Sydney
BEGIN:STANDARD
TZOFFSETFROM:+1100
TZOFFSETTO:+1000
TZNAME:AEST
DTSTART:20250405T160000
END:STANDARD
BEGIN:DAYLIGHT
TZOFFSETFROM:+1000
TZOFFSETTO:+1100
TZNAME:AEDT
DTSTART:20251004T160000
END:DAYLIGHT
BEGIN:STANDARD
TZOFFSETFROM:+1100
TZOFFSETTO:+1000
TZNAME:AEST
DTSTART:20260404T160000
END:STANDARD
BEGIN:DAYLIGHT
TZOFFSETFROM:+1000
TZOFFSETTO:+1100
TZNAME:AEDT
DTSTART:20261003T160000
END:DAYLIGHT
BEGIN:STANDARD
TZOFFSETFROM:+1100
TZOFFSETTO:+1000
TZNAME:AEST
DTSTART:20270403T160000
END:STANDARD
BEGIN:DAYLIGHT
TZOFFSETFROM:+1000
TZOFFSETTO:+1100
TZNAME:AEDT
DTSTART:20271002T160000
END:DAYLIGHT
END:VTIMEZONE
BEGIN:VEVENT
DTSTART;TZID=Australia/Sydney:20260202T100000
DTEND;TZID=Australia/Sydney:20260206T173000
DTSTAMP:20260617T025704
CREATED:20251212T074022Z
LAST-MODIFIED:20260525T115924Z
UID:10000019-1770026400-1770399000@hiltcrc.com.au
SUMMARY:HILT CRC short course: Energy Storage for Heavy Industry Decarbonisation
DESCRIPTION:HILT CRC short course: Energy Storage for Heavy Industry Decarbonisation\n2\, 3\, 4 and 6 February 2026 | ANU\, Canberra\, and online\nThis short course gives engineers and analysts knowledge to understand reliable storage strategies that cut emissions and cost while meeting heat\, electricity or green-fuel needs. \nParticipants will develop their ability to choose the right storage for a site by understanding the full complement of technologies\, their operational principles\, response times\, lifespans\, costs\, and operation and maintenance requirements\, as well as how to tailor them for process\, terrain and weather. \nThe course includes 4 online sessions\, 2 hands-on computer labs and an in-person discussion and networking session (see below). All sessions are 2 hours. \nWe encourage people to attend the computer lab sessions in person. If this is not possible\, we can provide the necessary scripts\, but cannot guarantee that they will run smoothly without our direct technical support. \nREGISTRATION: This course is free for HILT CRC Partners* and and includes lunch on both days and networking drinks on day 1. \n\n\n\n\n\n\n\n* If you’re a HILT CRC Partner employee and haven’t received the registration password\, contact us at admin@hiltcrc.com.au. \nREGISTER HERE \n\n\n\n\n\n\n\n\n\nCOURSE DETAILS\n  \n\nSession 1: Introduction (Ye Wang)\n10:00 – 12:00\, Monday 2 February\, 2026 online \nThis session covers the critical role of energy storage in dispatchable clean energy and decarbonisation\, fundamentals and emerging technologies\, the Australian landscape with key companies and demo projects\, general storage analysis\, market dynamics\, and compares onsite versus offsite storage for industry. \n\nSession 2: Thermal energy storage (Joe Coventry) \n\n13:00 – 15:00\, Monday 2 February\, online \n\nWe will review various thermal energy storage (TES) technologies\, focusing on their types\, media\, temperature ranges\, compatible working fluids\, commercial providers\, technology readiness level (TRL) status\, performance\, cost\, notable successes and failures\, and potential integration with high-temperature industrial processes for decarbonisation. \n\nSession 3: Electrical energy storage (John Pye)\n13:00 – 15:00\, Tuesday 3 February\, online \n\nWe will examine the types\, working principles\, and storage duration of electrical energy storage systems\, along with their cycle life\, degradation rates\, operation and maintenance requirements\, and costs. The session will highlight both successful and failed examples\, explore potential integration with high-temperature industrial processes\, and conclude with a discussion on whether ‘electrify everything’ necessarily implies reliance on electrical energy storage\, considering the key factors involved. \n\nSession 4: Hydrogen Storage (Alireza Rahbari)\n13:00 – 15:00\, Wednesday 4 February\, online \n\nThis session will cover hydrogen storage for industry\, focusing on types\, technology readiness levels\, storage duration\, safety protocols\, operation and maintenance\, and cost. We will explore potential integration with high-temperature industrial processes and discuss opportunities and challenges of onsite versus offsite storage for industry. \n\nSession 5: Computer lab 1 (Ye Wang)\n10:00 – 12:00\, Friday 6 February\, in person at ANU \n\n\nThis session will focus on modelling the dynamic performance of energy storage\, covering the definition of charging and discharging rates\, modes of operation\, round-trip efficiency\, and storage utilisation rate. The session will also address integration with photovoltaic (PV) and wind renewable systems through both lecture and tutorial. \n\n\nSession 6: Computer Lab 2 (Ye Wang)\n13:00 – 15:00\, Friday 6 February\, in person at ANU \n\nThis session will cover energy storage selection and sizing\, addressing how to account for variable renewable energy\, optimal dispatch strategies\, incorporation of energy storage into financial models and planning. \n\n\nSession 7: Closing seminar\n\n15:30 – 17:30\, Friday 6 February\, in person at ANU \n\nThis session will conclude the course with discussions on policies that incentivise energy storage adoption in heavy industry\, considering the need for additional support and possible forms it could take\, followed by a networking event. \n\n\n  \n\n\npresenters \n\n\nDr Ye Wang\, School of Engineering\, The Australian National University (ANU)\n\n \nYe Wang is a Research Fellow in the School of Engineering at The Australian National University (ANU)\, with a background in mechanical engineering. Her expertise spans the design of concentrating solar thermal (CST) systems\, optimisation of renewable energy systems\, and technoeconomic\, sensitivity\, and risk analysis. She serves as a key manager for two open-source repositories dedicated to CST simulations – solsticepy and SolarTherm. Ye is also a key contributor to multiple HILT CRC research projects\, including RP2.003 Green heat for industry\, RP2.008 Lost production and variability\, and RP2.009/RP2.017 Advancing the viability of high-temperature thermal energy storage for industrial applications. \n  \n\nProfessor Joe Coventry\, School of Engineering\, ANU\n \nJoe Coventry is a researcher and engineer at ANU’s School of Engineering. He is experienced in development and commercialisation of concentrating solar and energy storage technologies. He was previously Principal Engineer at Wizard Power\, and led the development of the Big Dish CSP technology. With expertise in the field of CST and thermal energy storage (TES)\, his research advances knowledge and develops technologies to improve the competitiveness of CST and TES as well as drive uptake and rapid decarbonisation in the power and heavy industrial sectors. Joe leads HILT CRC Project RP2.017. \n  \n\nAssociate Professor John Pye\, School of Engineering\, ANU\n \nJohn Pye has a background in mechanical engineering with an emphasis on thermal energy systems including system design\, heat transfer\, non-imaging optics\, computational fluid dynamics\, thermodynamics and simulation. His recent focus is on system-level design optimisation\, heavy industrial decarbonisation\, fluidised bed ironmaking and biomass gasification. John leads HILT CRC Project RP2.008 as well as an ARENA-funded project on de-risking hydrogen ironmaking. \n  \n\nDr Alireza Rahbari\, School of Engineering\, ANU\n \nAlireza Rahbari is a Senior Research Fellow at ANU. His research focuses on renewable energy\, system-level modelling\, dynamic system-level simulation\, porous media\, technoeconomic assessment\, heat transfer enhancement\, phase change thermal storage and combustion of dust particles. Research interests include solar fuel production via supercritical water gasification of algae biomass; solar thermal beneficiation\, sintering and pelletisation of iron ore; hydrogen-based steelmaking; and advanced thermal solutions. Alireza leads HILT CRC Project RP1.018 Optimal fast-start pathways to green steel via magnetite. \n\n 
URL:https://hiltcrc.com.au/events/hilt-crc-short-course-energy-storage-for-heavy-industry-decarbonisation/
LOCATION:ANU\, Hanna Neumann Building (#145)\, Science Road\, Acton\, ACT\, 2601\, Australia
CATEGORIES:Past event,Short Course
ATTACH;FMTTYPE=image/jpeg:https://hiltcrc.com.au/wp-content/uploads/2025/12/Energy-Storage-Short-Course-2026.jpg
ORGANIZER;CN="HILT CRC":MAILTO:enquiries@hiltcrc.com.au
END:VEVENT
END:VCALENDAR