The Future is Sun(ny) in Hawaii
By leveraging solar power, the Aloha State takes its next big step to 100 percent renewable energy by 2045
Call it a sun-kissed irony: The very remoteness that makes Hawaii an ideal getaway is also the source of the energy challenges that face the island chain. Unlike the continental states, which can rely on cross-border utility systems in times of need, Hawaii is isolated. Even the islands are separated by deep-sea chasms that make running underwater cables challenging—and expensive.
Factor in the distance from the mainland (2,390 miles to California), and the current electrical system in Oahu, which gets more than 80 percent of its power from fuel oil, is becoming antiquated and costly to maintain. However, the two power sources that Hawaii has in spades—solar and wind—don’t yet deliver the reliability of pricier fossil fuels.
“Solar and wind production is variable. It’s not like you can say, ‘I want this amount’ and press a button,” says Dora Nakafuji, Director of the Renewable Energy Planning Division at the +DZDLLDQ (OHFWULF &RPSDQ\ ´,QWHJUDWLQJ VLJQLÀFDQW YDULDEOH resources can offer real challenges on a system that needs to maintain and manage its own reserves.” But thanks to an injection of capital from the U.S. Department of Energy (DOE) and privatesector partnerships, Hawaii’s future is brightening.
As part of its Sunshot SHINES Initiative, which has invested more than $3 billion to support emerging photovoltaic technologies, the DOE awarded $2.5 million to Hawaiian Electric to assist in its quest to increase the integration of solar energy on Oahu. And to incorporate automation of distributed energy resources (DER) to the grid, Hawaiian Electric turned to Siemens Distributed Energy Resource Management (DERMS) software.
This intelligent grid solution from Siemens interfaces with Hawaiian Electric’s solar monitoring, real-time forecasting and DER installation tracking. Together they shine a ray of light on data that KDG SUHYLRXVO\ EHHQ GLIÀFXOW WR VHH WRWDO FDSDFLW\ RI 39 HQHUJ\ near-term load forecasts, etc.) from the farthest edges of the grid, including distribution circuits with high levels of customer-sited, private solar generation that feed eastern Oahu, particularly the critical urban center of Honolulu.
With these resources, Hawaiian Electric can more effectively integrate renewable resources and manage demand, helping its grid evolve from one that simply adds capacity to one that leverages existing capacity through monitoring, control and automation. The result also increases reliability, reducing potential outages and outage WLPHV ZKLOH GHOLYHULQJ QHZ FRVW HIÀFLHQFLHV WR UHVLGHQWV
As it strengthens its grid and information capacity, Hawaiian Electric can look ahead to smart integration of renewable power, transitioning to a multi-directional model able to maximize renewable energy use on the island. Management and coordination remain tasks, to be sure, but ones that can be met head on in collaboration with industry stakeholders and utilities.
“This is the most remote populated area in the world, so the issues here are orders of magnitude different than they are on the mainland,” VD\V .HQ *HLVOHU 9LFH 3UHVLGHQW RI 6WUDWHJ\ IRU 6LHPHQV 6PDUW *ULG “It’s a unique situation, but it will have an amazing impact on the problems that will hit the rest of the states in the future.”
Indeed, while other states have not (yet) committed to 100 percent renewable energy by 2045, as Hawaii has done, many are ZDWFKLQJ +DZDLL·V HIIRUWV DV WKH SXVK WR JUHHQ HQHUJ\ LQWHQVLÀHV
“Every utility will create its own path,” says Nakafuji, but Hawaiian Electric won’t go it alone. “We need like-minded partners to get there. These partners are also being pushed to adopt this information into their traditional tool sets, so together we’re exploring ways to create a PRUH RSWLPDO HIÀFLHQW V\VWHP μ