Asiful Alam scite author profile

The production of biomass‐based sustainable aviation fuel (SAF) is gaining traction to reduce the carbon footprint of the aviation sector. We performed a techno‐economic analysis to estimate the break‐even price and life cycle carbon emissions of the SAF derived from carinata (Brassica carinata) in the Southeastern United States. Carinata has the potential as a feedstock for SAF production in the selected region due to higher yield, low fertilizer use, co‐product generation (animal feed, propane, and naphtha), and compatibility with current farming practices. The system boundary started at the farm and ended when the SAF is delivered to an airport. Without co‐product credit or other subsidies such as Renewable Identification Number (RIN) credit, carinata‐based SAF was more expensive ($0.85 L−1 to $1.28 L−1) than conventional aviation fuel ($0.50 L−1). With co‐product credit only, the break‐even price ranged from $0.34 L−1 to $0.89 L−1. With both co‐product and RIN credits, the price ranged from ‐$0.12 to ‐$0.66 L−1. The total carbon emission was 918.67 g CO2e L−1 of carinata‐based SAF. This estimate provides 65% relative carbon savings compared with conventional aviation fuel (2618 g CO2e L−1). Sensitivity analysis suggested a 95% probability that relative carbon savings can range from 61% to 68%. Our study indicates that carinata‐based aviation fuel could significantly reduce carbon emissions of the aviation sector. However, current policy support mechanisms should be continued to support manufacturing and distribution in the Southeastern United States.

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Does Intercropping Carinata with Loblolly Pine for Sustainable Aviation Fuel Production Save Carbon? A Case Study from the Southern United States

Akter

Dwivedi

Masum

et al. 2022

Bioenerg. Res.

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Spatiotemporal Characterization of of the impact of Hurricane Michael on Urban Vegetation Cover in Panama City and Panama City Beach, Florida

Alam

Mishra

Dwivedi

2022

Preprint

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The impacts of major climatic events on urban vegetation cover are not well understood. We used Landsat 8 ETM + derived land cover in Google Earth Engine (GEE) to determine damage to urban vegetation, and Optimized Hotspot and Outlier Analyses to identify significant spatial clusters of hotspots and cold spots from Hurricane Michael in Panama City and Panama City Beach, Florida. We used two vegetation indices (Normalized Difference Water Index-NDWI and Enhanced Vegetation Index-EVI) to assess the impact of Hurricane Michael on urban vegetation cover. Results show that more than 30.07% of the land cover changed after two months of the hurricane landfall, including a rapid increase of 19.64% in water bodies. Overall, we observed a 4.91% decrease in vegetation cover, out of which 34.44% were coastal woody wetlands. NDWI showed a rapid increase due to an increase in water coverage in the study area, whereas EVI decreased due to vegetation loss by strong winds and intense precipitation. After Hurricane Michael, hotspots for high water content in sustained vegetation (NDWI) and overall vegetation condition (EVI) were discovered in Panama City Beach, Southport, and Youngstown CCD (census county division). Statistically significant (≥ 95% confidence, z ≥ 1.96) increases in NDWI hotspots (76.11% of the total area) were observed post-hurricane due to an increase in water bodies. EVI showed a decrease of about 9.21% in hotspot areas (≥ 95% confidence, z ≥ 1.96) due to defoliation caused by hurricane force winds. Our results highlight the advantages of using spatial statistical methods that could aid the development of natural hazard mitigation plans and risk reduction strategies by characterizing urban vegetation status in the Gulf Coast from previous hurricane occurrences spatiotemporally.

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Asiful Alam

Modeling site suitability and production potential of carinata-based sustainable jet fuel in the southeastern United States

Break‐even price and carbon emissions of carinata‐based sustainable aviation fuel production in the Southeastern United States

Does Intercropping Carinata with Loblolly Pine for Sustainable Aviation Fuel Production Save Carbon? A Case Study from the Southern United States

Spatiotemporal Characterization of of the impact of Hurricane Michael on Urban Vegetation Cover in Panama City and Panama City Beach, Florida

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