<i>CostMAP</i>: an open-source software package for developing cost surfaces using a multi-scale search kernel

Hoover, Brendan; Yaw, Sean; Middleton, Richard S.

doi:10.1080/13658816.2019.1675885

Cited by 29 publications

(15 citation statements)

References 49 publications

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“…As this thematic resolution did not reflect the simplified land cover maps commonly used for connectivity modeling and would not have allowed a fine assessment of the influence of the cost assigned to each land cover type, we reclassified it into five land cover types: (1) forests, (2) grasslands and woody perennial crops (grasslands hereafter), (3) annual crops, (4) artificial areas (built-up land, roads and transport infrastructures), and ( 5) others (water and other land cover types). The spatial and thematic resolutions of this raster layer allowed us to correctly account for the barrier effects of linear landscape features such as transport infrastructures, which can largely influence LCP modeling (Hoover et al, 2020).…”

Section: Landscape Samplingmentioning

confidence: 99%

Cost distances and least cost paths respond differently to cost scenario variations: a sensitivity analysis of ecological connectivity modeling

Savary

Foltête

Garnier

2021

International Journal of Geographical Information Science

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Biodiversity conservation measures designed to ensure ecological connectivity depend on the reliable modeling of species movements. Least cost path modeling makes it possible to identify the most likely dispersal paths within a landscape and provide two items of ecological relevance: (i) the spatial location of these least cost paths (LCPs) and (ii) the accumulated cost along them ('cost distance', CD). This spatial analysis requires that cost values be assigned to every type of land cover. The sensitivity of both LCPs and CDs to the cost scenarios has not been comprehensively assessed across realistic landscapes and diverging cost scenarios. We therefore assessed it in diverse landscapes sampled over metropolitan France and with widely diverging cost scenarios. The spatial overlap of the LCPs was more sensitive to the cost scenario than the CD values were. Besides, highly correlated CD matrices could derive from very different cost scenarios. Although the range of the cost values and the properties of each cost scenario significantly influenced the outputs of LCP modeling, landscape composition and configuration variables also explained their variations. Accordingly we provide guidelines for the use of LCP modeling in ecological studies and conservation planning.

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Section: Landscape Samplingmentioning

confidence: 99%

Cost distances and least cost paths respond differently to cost scenario variations: a sensitivity analysis of ecological connectivity modeling

Savary

Foltête

Garnier

2021

International Journal of Geographical Information Science

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“…To do this, SCO 2 T uses reduced-order models that replicate full-physics dynamic reservoir simulations (Chen et al, 2020). We modify SCO 2 T by 1) adding all site-level costs from the Environmental Protection Agency (EPA) geologic CO 2 storage cost model (Environmental Protection Agency, 2010); 2) adding an Excel MACRO to generate supply curves; and 3) removing areas from the SCO 2 T subsurface dataset that prior work suggests cannot be developed for geothermal power plants or geologic CO 2 storage sites (Young et al, 2019;Hoover et al, 2020). Below we list some assumptions made to apply the EPA cost model for SCO 2 T for this study.…”

Section: Methodsmentioning

confidence: 99%

The Importance of Modeling Carbon Dioxide Transportation and Geologic Storage in Energy System Planning Tools

et al. 2022

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Energy system planning tools suggest that the cost and feasibility of climate-stabilizing energy transitions are sensitive to the cost of CO2 capture and storage processes (CCS), but the representation of CO2 transportation and geologic storage in these tools is often simple or non-existent. We develop the capability of producing dynamic-reservoir-simulation-based geologic CO2 storage supply curves with the Sequestration of CO2 Tool (SCO2T) and use it with the ReEDS electric sector planning model to investigate the effects of CO2 transportation and geologic storage representation on energy system planning tool results. We use a locational case study of the Electric Reliability Council of Texas (ERCOT) region. Our results suggest that the cost of geologic CO2 storage may be as low as $3/tCO2 and that site-level assumptions may affect this cost by several dollars per tonne. At the grid level, the cost of geologic CO2 storage has generally smaller effects compared to other assumptions (e.g., natural gas price), but small variations in this cost can change results (e.g., capacity deployment decisions) when policy renders CCS marginally competitive. The cost of CO2 transportation generally affects the location of geologic CO2 storage investment more than the quantity of CO2 captured or the location of electricity generation investment. We conclude with a few recommendations for future energy system researchers when modeling CCS. For example, assuming a cost for geologic CO2 storage (e.g., $5/tCO2) may be less consequential compared to assuming free storage by excluding it from the model.

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“…The implication of CCUS source-sink matching: the CO 2 emission sources in a region are geographically dispersed, with different emissions, and the CO 2 utilization and geological storage sinks have different carbon removal potentials and methods. CO 2 transport modes and transport costs between sources and sinks are affected by factors such as regional geographical conditions, land use types, rivers, traffic and crowd density [6]. It can reduce CO 2 transport costs and maximize CO 2 utilization and geological storage by constructing the source-sink matching relationship of CCUS scientifically.…”

Section: ) Source-sink Matchingmentioning

confidence: 99%

Research on the Development of CCUS Full Process Technology

Mi¹

2022

JPEE

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At present, China's CCUS has made a leap forward development in policy, technology, demonstration projects and commercial operation. However, from the perspective of the entire energy system, CCUS can play its role in reducing CO 2 only when it is combined with the process of resource exploitation, energy production, energy storage and transportation and energy utilization, which requires the research of the whole process technology of CCUS. This paper studies the source sink matching and technology integration matching in the whole process of CCUS technology, studies the application of existing coal-fired power plants + CCUS, steel plants + CCUS, cement plants + CCUS technology and the future application of BECCS technology and hydrogen energy + CCUS technology, and puts forward relevant suggestions on improving the laws, regulations and policy system for the development of CCUS, establishing a cross sectoral and cross industry cooperation platform and improving the carbon trading system.

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CostMAP: an open-source software package for developing cost surfaces using a multi-scale search kernel

Cited by 29 publications

References 49 publications

Cost distances and least cost paths respond differently to cost scenario variations: a sensitivity analysis of ecological connectivity modeling

Cost distances and least cost paths respond differently to cost scenario variations: a sensitivity analysis of ecological connectivity modeling

The Importance of Modeling Carbon Dioxide Transportation and Geologic Storage in Energy System Planning Tools

Research on the Development of CCUS Full Process Technology

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