Considering technology characteristics to project future costs of direct air capture

Joule, Journal Year: 2024, Volume and Issue: 8(4), P. 979 - 999

Published: March 1, 2024

Several low-carbon technologies, such as solar photovoltaics or batteries, have experienced massive cost reductions in the recent past. However, non-mature technologies will also be required to meet Paris climate targets. The of novel like direct air capture (DAC) remains highly uncertain. Here, we introduce a new method project future costs by assigning empirically grounded experience rates technology components based on their similarity mature terms design complexity and customization needs. After an ex-post validation this method, apply it three DAC combined with CO2 transport storage (DACCS) provide probabilistic estimates net removed. At 1 Gt-CO2/year cumulative capacity, DACCS at $341/tCO2 ($226–$544 90% confidence) for liquid solvent DACCS, $374/tCO2 ($281–$579) solid sorbent $371/tCO2 ($230–$835) CaO ambient weathering DACCS.

Language: Английский

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Sustainable aviation fuel pathways: Emissions, costs and uncertainty

Resources Conservation and Recycling, Journal Year: 2025, Volume and Issue: 215, P. 108124 - 108124

Published: Jan. 14, 2025

Language: Английский

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Architecting Metal–Organic Frameworks at Molecular Level toward Direct Air Capture

Journal of the American Chemical Society, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 7, 2025

Escalating carbon dioxide (CO2) emissions have intensified the greenhouse effect, posing a significant long-term threat to environmental sustainability. Direct air capture (DAC) has emerged as promising approach achieving net-zero future, which offers several practical advantages, such independence from specific CO2 emission sources, economic feasibility, flexible deployment, and minimal risk of leakage. The design optimization DAC sorbents are crucial for accelerating industrial adoption. Metal-organic frameworks (MOFs), with high structural order tunable pore sizes, present an ideal solution strong guest-host interactions under trace conditions. This perspective highlights recent advancements in using MOFs DAC, examines molecular-level effects water vapor on capture, reviews data-driven computational screening methods develop molecularly programmable MOF platform identifying optimal sorbents, discusses scale-up cost DAC.

Language: Английский

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Novel comprehensive life cycle assessment (LCA) of sustainable flue gas carbon capture and utilization (CCU) for surfactant and fuel via Fischer-Tropsch synthesis

Journal of CO2 Utilization, Journal Year: 2025, Volume and Issue: 92, P. 103013 - 103013

Published: Jan. 9, 2025

Language: Английский

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The role of direct air capture in achieving climate-neutral aviation

Nature Communications, Journal Year: 2025, Volume and Issue: 16(1)

Published: Jan. 11, 2025

Growing demand for air travel and limited scalable solutions pose significant challenges to the mitigation of aviation's climate change impact. Direct capture (DAC) may gain prominence due its versatile applications either carbon removal (direct storage, DACCS) or synthetic fuel production utilization, DACCU). Through a comprehensive time-dynamic techno-economic assessment, we explore conditions fuels from DACCU become cost-competitive with an emit-and-remove strategy based on DACCS under 2050 CO

Language: Английский

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Diversity of biomass usage pathways to achieve emissions targets in the European energy system

Nature Energy, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 23, 2025

Language: Английский

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Water management and heat integration in direct air capture systems

Nature Chemical Engineering, Journal Year: 2024, Volume and Issue: 1(3), P. 208 - 215

Published: March 5, 2024

Water plays a pivotal role in direct air capture technologies, impacting materials, regeneration processes and product streams. CO2 removal methods, including absorption, adsorption electrochemical techniques, encounter challenges associated with water, thus reducing their efficacy. fluxes into out of aqueous solvents affect the concentration overall performance. Solid adsorbents co-adsorb water greater quantities than will require effective strategies to address substantial energy penalty desorption each cycle. Water-management are imperative for economic viability minimizing environmental impact, but high intensity necessitates heat recovery techniques. Feed dehydration can be combined strategic integration process streams standard techniques front-end management. For back-end approaches, mechanical vapor compression is viable solution coupling management, we highlight potential benefits three implementation methods. Further research variable climate conditions quality impacts essential success technologies. management crucial enhancing impact (DAC) This Perspective discusses several DAC processes.

Language: Английский

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Atmospheric alchemy: The energy and cost dynamics of direct air carbon capture

MRS Energy & Sustainability, Journal Year: 2024, Volume and Issue: unknown

Published: July 9, 2024

Abstract Amid a relentless global climate crisis, the 28th Conference of Parties (COP28) spotlighted Direct Air Carbon Capture (DACC) as key intervention to mitigate escalating temperatures and CO 2 levels. The Intergovernmental Panel on Climate Change (IPCC) underscores urgency this challenge, stipulating need for robust removal strategies. It sets daunting yet crucial target: capture 85 million metric tons by 2030, 980 2050, achieve net-zero emissions (IEA, Executive Summary—Direct 2022—Analysis. https://www.iea.org/reports/direct-air-capture-2022/executive-summary ). Despite imperative, existing 19 operational DAC facilities globally face significant barriers, including prohibitive costs stringent regulations, which impede their large-scale application (Ozkan et al.). Current status pillars direct air technologies. Iscience (2022). While COP28 stopped short delineating definitive roadmap DAC, article addresses vital aspect technology: processes’ substantial energy heat requirements, are integral efficiency economic viability. This illuminates pathways future technological evolution cost optimization through an in-depth analysis these thereby charting course toward more effective scalable infrastructure. Graphical abstract Highlights With atmospheric exceeding 420 ppm, clock is ticking crisis. offers revolutionary approach directly remove excess , acting critical tool in our fight sustainable future. However, current systems challenge high consumption. Continuous fan operation intake sorbent material regeneration, consuming nearly 2000–3000 kWh per ton captured, major contributors. Optimizing processes crucial. Advancements efficiency, system design that minimizes parasitic losses, seamless integration with renewable sources slashing DAC’s demands. By reducing its carbon footprint enhancing viability, advancements can unlock full potential become game-changer combating change securing cleaner planet. Discussion Given requirements DACC processes, what innovations necessary make efficient economically viable? Considering demands most promising avenues enhance technology's scalability cost-effectiveness? How limitations be overcome scale up effectively? What role could play meeting facilities, how might impact overall process? do technologies influence location infrastructure needs, particularly relation sinks? or currently being explored optimize challenges they terms implementation scaling? achieving targets, policy regulatory frameworks designed support development deployment energy-efficient solutions?

Language: Английский

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Co-assessment of costs and environmental impacts for off-grid direct air carbon capture and storage systems

Communications Engineering, Journal Year: 2024, Volume and Issue: 3(1)

Published: Jan. 16, 2024

Abstract Large-scale deployment of direct air carbon capture and storage (DACS) is required to offset CO 2 emissions. To guide decision-making, a combined assessment costs environmental impacts for DACS systems necessary. Here we present cost model life cycle several combinations off-grid DACSs, powered by photovoltaic (PV) energy heat pumps with battery storages mitigate intermittency the PV source. Utilization factors DACSs are estimated different locations, power capacities. We find that optimal layout in Nevada (USA) nominal removal capacity 100,000tCO per year consists 100 MW 300MWh battery. Costs $755 $877 gross net 1tCO . The difference explained efficiency (CRE) 88%. Of 16 evaluated impact categories mineral resource use most problematic. conceive dashboard which allows track how changes technical parameters, such as consumption or adsorbent degradation, costs, CRE impacts. In an optimized scenario including tax credits, net-removal will be $216 at 93%.

Language: Английский

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Assessment of Potential and Techno-Economic Performance of Solid Sorbent Direct Air Capture with CO₂ Storage in Europe

Environmental Science & Technology, Journal Year: 2024, Volume and Issue: 58(24), P. 10567 - 10581

Published: June 3, 2024

Direct air capture with CO2 storage (DACCS) is among the carbon dioxide removal (CDR) options, largest gap between current deployment and needed upscaling. Here, we present a geospatial analysis of techno-economic performance large-scale DACCS in Europe using two indicators: CDR costs potential. Different low-temperature heat configurations are considered, i.e., coupled to national power grid, waste powered by curtailed electricity. Our findings reveal that potential systems mainly driven (i) availability energy sources, (ii) location-specific climate conditions, (iii) price GHG intensity electricity, (iv) transport distance nearest location. The results further highlight following key findings: limited heat, only Sweden potentially compensating nearly 10% emissions through CDR, need for considering comprehensive assessment DACCS. Finally, our reveals substantial differences regions due useful information elements consistent insights will contribute feasibility studies toward effective implementation.

Language: Английский

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