FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3158488063> ?p ?o ?g. }

• W3158488063 abstract "There is significant interest in Australia, both federally and at the state level, to develop a hydrogen production industry. Australia’s Chief Scientist, Alan Finkel, recently prepared a briefing paper for the COAG Energy Council outlining a road map for hydrogen. It identifies hydrogen has the potential to be a significant source of export revenue for Australia in future years, assist with decarbonising Australia’s economy and could establish Australia as a leader in low emission fuel production.As part of the ongoing investigations into the hydrogen production potential of Australia, Geoscience Australia has been commissioned by the Department of Industry, Innovation and Science to develop heat maps that show areas with high potential for future hydrogen production. The study is technology agnostic, in that it considers hydrogen production via electrolysis using renewable energy sources and also fossil fuel hydrogen coupled with carbon capture and storage (CCS). The heat maps presented in this work are synthesized from the key individual national-scale datasets that are relevant for hydrogen production. In the case of hydrogen from electrolysis, renewable energy potential and the availability of water are the most important factors, with various infrastructural considerations playing a secondary role. In the case of fossil fuel hydrogen, proximity to gas and coal resources, water and availability of carbon storage sites are the important parameters that control the heat maps. In this report we present 5 different heat map scenarios, reflecting different assumptions in the geospatial analysis and also reflecting to some degree the different projected timeframes for hydrogen production. The first three scenarios pertain to renewable energy and hydrogen There is significant interest in Australia, both federally and at the state level, to develop a hydrogen production industry. In August 2018, Australia’s Chief Scientist, Dr Alan Finkel, prepared a briefing paper for the COAG Energy Council outlining a road map for hydrogen. It identifies hydrogen has the potential to be a significant source of export revenue for Australia in future years, assist with decarbonising Australia’s economy and could establish Australia as a leader in low emission fuel production.As part of ongoing investigations into the hydrogen production potential of Australia, Geoscience Australia has been engaged by the Department of Industry, Innovation and Science to develop maps that show areas with high potential for future hydrogen production. The study is technology agnostic, but considers only low carbon production processes. It includes hydrogen production via electrolysis using renewable energy sources (referred to as renewable hydrogen), as well as fossil fuel-derived hydrogen coupled with carbon capture and storage (CCS) (referred to as CCS hydrogen). The maps presented in this work are synthesized from the key individual national-scale datasets that are relevant for hydrogen production. In the case of hydrogen from electrolysis, renewable energy potential (from wind, solar and hydro resources) and the availability of water are the most important factors, while various infrastructure considerations also play a role. In the case of CCS hydrogen, proximity to gas and coal resources, water and availability of carbon storage sites are the important parameters that control the spatial distribution of potential hydrogen production. In this report we present five different scenarios that reflect key differences in technologies for hydrogen production and the requirements of those technologies. Using geospatial analysis, each scenario is translated into a heat map that shows regional trends in potential for hydrogen production, based on access to underpinning resources and existing infrastructure.Three scenarios explore the future potential for renewable hydrogen produced by electrolysis. These demonstrate a high potential for hydrogen production in the future near many Australian coastal areas, which is even larger if infrastructure is available to transport renewable power generated from inland areas to the coast. Results also show significant future potential for hydrogen production in inland areas where water is available. The final two scenarios focus on the future potential for CCS hydrogen: a 2030 scenario and a 2050 scenario. A key factor in future CCS hydrogen potential is related to the timeframes for the availability of geological storage resources for CO2." @default.
• W3158488063 created "2021-05-10" @default.
• W3158488063 creator A5028907356 @default.
• W3158488063 creator A5042066703 @default.
• W3158488063 creator A5048232517 @default.
• W3158488063 date "2019-09-20" @default.
• W3158488063 modified "2023-09-27" @default.
• W3158488063 title "Prospective hydrogen production regions of Australia - geospatial inputs" @default.
• W3158488063 hasPublicationYear "2019" @default.
• W3158488063 type Work @default.
• W3158488063 sameAs 3158488063 @default.
• W3158488063 citedByCount "0" @default.
• W3158488063 crossrefType "journal-article" @default.
• W3158488063 hasAuthorship W3158488063A5028907356 @default.
• W3158488063 hasAuthorship W3158488063A5042066703 @default.
• W3158488063 hasAuthorship W3158488063A5048232517 @default.
• W3158488063 hasConcept C119599485 @default.
• W3158488063 hasConcept C121955636 @default.
• W3158488063 hasConcept C127413603 @default.
• W3158488063 hasConcept C139719470 @default.
• W3158488063 hasConcept C144133560 @default.
• W3158488063 hasConcept C162324750 @default.
• W3158488063 hasConcept C175605778 @default.
• W3158488063 hasConcept C178790620 @default.
• W3158488063 hasConcept C185592680 @default.
• W3158488063 hasConcept C188573790 @default.
• W3158488063 hasConcept C195487862 @default.
• W3158488063 hasConcept C202189072 @default.
• W3158488063 hasConcept C205649164 @default.
• W3158488063 hasConcept C2778348673 @default.
• W3158488063 hasConcept C2987658370 @default.
• W3158488063 hasConcept C39380314 @default.
• W3158488063 hasConcept C39432304 @default.
• W3158488063 hasConcept C42360764 @default.
• W3158488063 hasConcept C512968161 @default.
• W3158488063 hasConcept C548081761 @default.
• W3158488063 hasConcept C62649853 @default.
• W3158488063 hasConcept C68189081 @default.
• W3158488063 hasConcept C9682599 @default.
• W3158488063 hasConcept C9770341 @default.
• W3158488063 hasConceptScore W3158488063C119599485 @default.
• W3158488063 hasConceptScore W3158488063C121955636 @default.
• W3158488063 hasConceptScore W3158488063C127413603 @default.
• W3158488063 hasConceptScore W3158488063C139719470 @default.
• W3158488063 hasConceptScore W3158488063C144133560 @default.
• W3158488063 hasConceptScore W3158488063C162324750 @default.
• W3158488063 hasConceptScore W3158488063C175605778 @default.
• W3158488063 hasConceptScore W3158488063C178790620 @default.
• W3158488063 hasConceptScore W3158488063C185592680 @default.
• W3158488063 hasConceptScore W3158488063C188573790 @default.
• W3158488063 hasConceptScore W3158488063C195487862 @default.
• W3158488063 hasConceptScore W3158488063C202189072 @default.
• W3158488063 hasConceptScore W3158488063C205649164 @default.
• W3158488063 hasConceptScore W3158488063C2778348673 @default.
• W3158488063 hasConceptScore W3158488063C2987658370 @default.
• W3158488063 hasConceptScore W3158488063C39380314 @default.
• W3158488063 hasConceptScore W3158488063C39432304 @default.
• W3158488063 hasConceptScore W3158488063C42360764 @default.
• W3158488063 hasConceptScore W3158488063C512968161 @default.
• W3158488063 hasConceptScore W3158488063C548081761 @default.
• W3158488063 hasConceptScore W3158488063C62649853 @default.
• W3158488063 hasConceptScore W3158488063C68189081 @default.
• W3158488063 hasConceptScore W3158488063C9682599 @default.
• W3158488063 hasConceptScore W3158488063C9770341 @default.
• W3158488063 hasLocation W31584880631 @default.
• W3158488063 hasOpenAccess W3158488063 @default.
• W3158488063 hasPrimaryLocation W31584880631 @default.
• W3158488063 hasRelatedWork W1544730168 @default.
• W3158488063 hasRelatedWork W2009041712 @default.
• W3158488063 hasRelatedWork W2025687733 @default.
• W3158488063 hasRelatedWork W2035751484 @default.
• W3158488063 hasRelatedWork W2124967344 @default.
• W3158488063 hasRelatedWork W2161919911 @default.
• W3158488063 hasRelatedWork W2209258449 @default.
• W3158488063 hasRelatedWork W2336529859 @default.
• W3158488063 hasRelatedWork W2502499511 @default.
• W3158488063 hasRelatedWork W2619516473 @default.
• W3158488063 hasRelatedWork W2734807458 @default.
• W3158488063 hasRelatedWork W2776403386 @default.
• W3158488063 hasRelatedWork W2803008362 @default.
• W3158488063 hasRelatedWork W2884769242 @default.
• W3158488063 hasRelatedWork W2910897634 @default.
• W3158488063 hasRelatedWork W2953501647 @default.
• W3158488063 hasRelatedWork W3119967312 @default.
• W3158488063 hasRelatedWork W3121791567 @default.
• W3158488063 hasRelatedWork W3127527616 @default.
• W3158488063 hasRelatedWork W3169920149 @default.
• W3158488063 isParatext "false" @default.
• W3158488063 isRetracted "false" @default.
• W3158488063 magId "3158488063" @default.
• W3158488063 workType "article" @default.