B. Kroposki scite author profile

SUMMARYThe U.S. Department of Energy and the National Renewable Energy Laboratory are developing technologies to produce hydrogen from renewable, sustainable sources. A cost goal of $2.00-$3:00 kg À1 of hydrogen has been identified as the range at which delivered hydrogen becomes cost competitive with gasoline for passenger vehicles. Electrolysis of water is a standard commercial technology for producing hydrogen. Using wind and solar resources to produce the electricity for the process creates a renewable system. Biomass-to-hydrogen processes, including gasification, pyrolysis, and fermentation, are less well-developed technologies. These processes offer the possibility of producing hydrogen from energy crops and from biomass materials such as forest residue and municipal sewage. Solar energy can be used to produce hydrogen from water and biomass by several conversion pathways. Concentrated solar energy can generate high temperatures at which thermochemical reactions can be used to split water. Photoelectrochemical water splitting and photobiology are long-term options for producing hydrogen from water using solar energy. All these technologies are in the development stage.

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Terawatt-scale photovoltaics: Transform global energy

Haegel¹,

Atwater²,

Barnes³

et al. 2019

Science

390

219

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Is the distribution grid ready to accept large‐scale photovoltaic deployment? State of the art, progress, and future prospects

Braun

Stetz

Bründlinger

et al. 2011

Progress in Photovoltaics

151

104

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The installed capacity of photovoltaic (PV) systems has recently increased at a much faster rate than the development of grid codes to effectively and efficiently manage high penetrations of PV within the distribution system. In a number of countries, PV penetrations in some regions are now raising growing concerns regarding integration. Management strategies vary considerably by country-some still have an approach that PV systems should behave as passive as possible, whereas others demand an active participation in grid control. This variety of grid codes also causes challenges in learning from "best practice." This paper provides a review of current grid codes in some countries with high PV penetrations. In addition, the paper presents a number of country-specific case studies on different approaches for improved integration of PV systems in the distribution grid. In particular, we consider integration approaches using active and reactive power control that can reduce or defer expensive grid reinforcement while supporting higher PV penetrations

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Validation of a Photovoltaic Module Energy Ratings Procedure at NREL

Marion¹,

Kroposki²,

Emery³

et al. 1999

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Electrolysis: Information and Opportunities for Electric Power Utilities

Kroposki¹,

Levene²,

Harrison³

et al. 2006

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B. Kroposki

Renewable hydrogen production

Terawatt-scale photovoltaics: Transform global energy

Is the distribution grid ready to accept large‐scale photovoltaic deployment? State of the art, progress, and future prospects

Validation of a Photovoltaic Module Energy Ratings Procedure at NREL

Electrolysis: Information and Opportunities for Electric Power Utilities

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