Noah Kittner scite author profile

The clean energy transition requires a co-evolution of innovation, investment, and deployment strategies for emerging energy storage technologies. A deeply decarbonized energy system research platform needs materials science advances in battery technology to overcome the intermittency challenges of wind and solar electricity. Simultaneously, policies designed to build market growth and innovation in battery storage may complement cost reductions across a suite of clean energy technologies. Further integration of R&D and deployment of new storage technologies paves a clear route toward cost-e ective low-carbon electricity. Here we analyse deployment and innovation using a two-factor model that integrates the value of investment in materials innovation and technology deployment over time from an empirical dataset covering battery storage technology. Complementary advances in battery storage are of utmost importance to decarbonization alongside improvements in renewable electricity sources. We find and chart a viable path to dispatchable US$1 W −1 solar with US$100 kWh −1 battery storage that enables combinations of solar, wind, and storage to compete directly with fossil-based electricity options.

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Energy security in ASEAN: A quantitative approach for sustainable energy policy

Tongsopit

et al. 2016

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Deforestation and biomass fuel dynamics in Uganda

Jagger

Kittner

2017

Biomass and Bioenergy

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ASEAN grid flexibility: Preparedness for grid integration of renewable energy

2019

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In 2015, ASEAN established a goal of increasing renewable energy share in its energy portfolio from approximately 13-23% by 2025. Renewable electricity, especially intermittent and variable sources, presents challenges for grid operators due to the uncertain timing and quantity of electricity supply. Grid flexibility, the electric grid's ability to respond to changing demands and supply, now stands a key resource in responding to these uncertainties while maximizing the cost-effective role of clean energy. We develop and apply a grid flexibility assessment tool to assess ASEAN's current grid flexibility using six quantitative indicators: grid reliability, electricity market access; load profile ramp capacity; quality of forecasting tools; proportion of electricity generation from natural gas; and renewable energy diversity. We find that ASEAN nations cluster into three groups: better; moderately; and the least prepared nations. We develop an analytical ramp rate calculator to quantify expected load ramps for ASEAN in an integrated ASEAN Power Grid scenario. The lack of forecasting systems and limited electricity market access represent key weaknesses and areas where dramatic improvements can become cost-effective means to increase regional grid flexibility. As ASEAN pursues renewable energy targets, regional cooperation remains essential to address identified challenges. Member nations need to increase grid flexibility capacity to adequately prepare for higher penetrations of renewable electricity and lower overall system costs.

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Noah Kittner

Energy storage deployment and innovation for the clean energy transition

Energy security in ASEAN: A quantitative approach for sustainable energy policy

Deforestation and biomass fuel dynamics in Uganda

ASEAN grid flexibility: Preparedness for grid integration of renewable energy

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