1. Combined Scheduling and Configuration Optimization of Power-to-Methanol System Considering Feedback Control of Thermal Power. (2025). Liu, Yinghui ; Sun, LI ; Chen, KE ; Ye, Junjie.
   In: Energies.
   RePEc:gam:jeners:v:18:y:2025:i:5:p:1210-:d:1603362.

   Full description at Econpapers || Download paper

2. Wind curtailment powered flexible direct air capture. (2025). Yu, Lijun ; Fujikawa, Shigenori ; Wang, Lun ; Feng, Yuanfan ; Miao, Yihe ; Liu, Yuhang.
   In: Applied Energy.
   RePEc:eee:appene:v:377:y:2025:i:pc:s0306261924017859.

   Full description at Econpapers || Download paper

1. An, K. ; Farooqui, A. ; McCoy, S.T. The impact of climate on solvent-based direct air capture systems. 2022 Appl Energy. 325 -

2. Azarabadi, H. ; Lackner, K.S. A sorbent-focused techno-economic analysis of direct air capture. 2019 Appl Energy. 250 959-975

3. Breyer, C. ; Fasihi, M. ; Aghahosseini, A. Carbon dioxide direct air capture for effective climate change mitigation based on renewable electricity: a new type of energy system sector coupling. 2020 Mitig Adapt Strat Glob Chang. 25 43-65

4. Bui, M. ; Adjiman, C.S. ; Bardow, A. Carbon capture and storage (CCS): the way forward. 2018 Energ Environ Sci. 11 1062-1176
   Paper not yet in RePEc: Add citation now
   
5. Erans, M. ; Sanz-Pérez, E.S. ; Hanak, D.P. Direct air capture: process technology, techno-economic and socio-political challenges. 2022 Energ Environ Sci. 15 1360-1405
   Paper not yet in RePEc: Add citation now
   

6. Fan, W. ; Ju, L. ; Tan, Z. Two-stage distributionally robust optimization model of integrated energy system group considering energy sharing and carbon transfer. 2023 Appl Energy. 331 -

7. Fasihi, M. ; Efimova, O. ; Breyer, C. Techno-economic assessment of CO2 direct air capture plants. 2019 J Clean Prod. 224 957-980
   Paper not yet in RePEc: Add citation now
   
8. Furukawa, H. ; Cordova, K.E. ; O’Keeffe, M. The chemistry and applications of metal-organic frameworks. 2013 Science. 341 1230444-
   Paper not yet in RePEc: Add citation now
   

9. Ge, Y. ; Han, J. ; Ma, Q. Optimal configuration and operation analysis of solar-assisted natural gas distributed energy system with energy storage. 2022 Energy. 246 -

10. Gebald, C. ; Repond, N. ; Wurzbacher, J.A. Steam assisted vacuum desorption process for carbon dioxide capture: US10279306B2. 2019 :
    Paper not yet in RePEc: Add citation now
    

11. Hou, H. ; Xu, T. ; Wu, X. Optimal capacity configuration of the wind-photovoltaic-storage hybrid power system based on gravity energy storage system. 2020 Appl Energy. 271 -

12. Jiang, T. ; Dong, X. ; Zhang, R. Strategic active and reactive power scheduling of integrated community energy systems in day-ahead distribution electricity market. 2023 Appl Energy. 336 -

13. Jing, R. ; Zhu, X. ; Zhu, Z. A multi-objective optimization and multi-criteria evaluation integrated framework for distributed energy system optimal planning. 2018 Energ Conver Manage. 166 445-462
    Paper not yet in RePEc: Add citation now
    
14. Kiani, A. ; Jiang, K. ; Feron, P. Techno-economic assessment for CO2 capture from air using a conventional liquid-based absorption process. 2020 Front Energy Res. 8-
    Paper not yet in RePEc: Add citation now
    
15. Li, Y. ; Zhang, J. ; Wu, X. Optimal design of combined cooling, heating and power multi-energy system based on load tracking performance evaluation of adjustable equipment. 2022 Appl Therm Eng. 211 -
    Paper not yet in RePEc: Add citation now
    
16. Luukkonen, A. ; Elfving, J. ; Inkeri, E. Improving adsorption-based direct air capture performance through operating parameter optimization. 2023 Chem Eng J. 471 -
    Paper not yet in RePEc: Add citation now
    
17. Ma, T. ; Wu, J. ; Hao, L. Energy flow modeling and optimal operation analysis of the micro energy grid based on energy hub. 2017 Energ Conver Manage. 133 292-306
    Paper not yet in RePEc: Add citation now
    

18. Morato, M.M. ; Vergara-Dietrich, J. ; Esparcia, E.A. Assessing demand compliance and reliability in the Philippine off-grid islands with model predictive control microgrid coordination. 2021 Renew Energy. 179 1271-1290

19. Pang, Y. ; Pan, L. ; Zhang, J. Integrated sizing and scheduling of an off-grid integrated energy system for an isolated renewable energy hydrogen refueling station. 2022 Appl Energy. 323 -

20. Patton, A. ; Crittenden, B.D. ; Perera, S.P. Use of the linear driving force approximation to guide the Design of Monolithic Adsorbents. 2004 Chem Eng Res Design. 82 999-1009
    Paper not yet in RePEc: Add citation now
    
21. Qiu, J. ; Yang, L. ; Chen, X. Optimal configuration of a negative carbon emission energy system for green agriculture. 2022 IFAC-PapersOnLine. 55 501-506
    Paper not yet in RePEc: Add citation now
    
22. Sabatino, F. ; Grimm, A. ; Gallucci, F. A comparative energy and costs assessment and optimization for direct air capture technologies. 2021 Joule. 5 2047-2076
    Paper not yet in RePEc: Add citation now
    
23. Sadiq, M.M. ; Batten, M.P. ; Mulet, X. A pilot-scale demonstration of mobile direct air capture using metal-organic frameworks. 2020 Adv Sustain Syst. 4 2000101-
    Paper not yet in RePEc: Add citation now
    

24. Seriño, M.N.V. Rising carbon footprint inequality in the Philippines. 2020 Environ Econ Policy Stud. 22 173-195

25. Siegelman, R.L. ; Kim, E.J. ; Long, J.R. Porous materials for carbon dioxide separations. 2021 Nat Mater. 20 1060-1072
    Paper not yet in RePEc: Add citation now
    
26. Sinha, A. ; Darunte, L.A. ; Jones, C.W. Systems design and economic analysis of direct air capture of CO2 through temperature vacuum swing adsorption using MIL-101(Cr)-PEI-800 and mmen-Mg2(dobpdc) MOF adsorbents. 2017 Industr Eng Chem Res. 56 750-764
    Paper not yet in RePEc: Add citation now
    

27. Sumabat, A.K. ; Lopez, N.S. ; Yu, K.D. Decomposition analysis of Philippine CO2 emissions from fuel combustion and electricity generation. 2016 Appl Energy. 164 795-804

28. Terlouw, T. ; Treyer, K. ; Bauer, C. Life cycle assessment of direct air carbon capture and storage with low-carbon energy sources. 2021 Environ Sci Technol. 55 11397-11411
    Paper not yet in RePEc: Add citation now
    
29. Vézina, G. ; Brouillette, M. Assessment of an integrated direct CO2 air capture system using wind power with compressed air energy storage in northern regions. 2021 In Proceedings of the 15th Greenhouse Gas Control Technologies Conference.. 15-18
    Paper not yet in RePEc: Add citation now
    
30. Wiegner, J.F. ; Grimm, A. ; Weimann, L. Optimal design and operation of solid sorbent direct air capture processes at varying ambient conditions. 2022 Industr Eng Chem Res. 61 12649-12667
    Paper not yet in RePEc: Add citation now
    
31. Wijesiri, R.P. ; Knowles, G.P. ; Yeasmin, H. Desorption process for capturing CO2 from air with supported amine sorbent. 2019 Industr Eng Chem Res. 58 15606-15618
    Paper not yet in RePEc: Add citation now
    
32. Wurzbacher, J.A. ; Gebald, C. ; Piatkowski, N. Concurrent separation of CO2 and H2O from air by a temperature-vacuum swing adsorption/desorption cycle. 2012 Environ Sci Technol. 46 9191-9198
    Paper not yet in RePEc: Add citation now
    
33. Wurzbacher, J.A. ; Gebald, C. ; Steinfeld, A. Separation of CO2 from air by temperature-vacuum swing adsorption using diamine-functionalized silica gel. 2011 Energ Environ Sci. 4 3584-
    Paper not yet in RePEc: Add citation now
    

34. Xi, H. ; Wu, X. ; Chen, X. Artificial intelligent based energy scheduling of steel mill gas utilization system towards carbon neutrality. 2021 Appl Energy. 295 -

35. Xi, H. ; Zhu, M. ; Lee, K.Y. Multi-timescale and control-perceptive scheduling approach for flexible operation of power plant-carbon capture system. 2023 Fuel. 331 -
    Paper not yet in RePEc: Add citation now
    
36. Zhou, J. ; Wu, Y. ; Zhong, Z. Modeling and configuration optimization of the natural gas-wind-photovoltaic-hydrogen integrated energy system: a novel deviation satisfaction strategy. 2021 Energ Conver Manage. 243 -
    Paper not yet in RePEc: Add citation now
    

37. Zhu, X. ; Ge, T. ; Yang, F. Design of steam-assisted temperature vacuum-swing adsorption processes for efficient CO2 capture from ambient air. 2021 Renew Sustain Energy Rev. 137 -

38. Zhu, X. ; Xie, W. ; Wu, J. Recent advances in direct air capture by adsorption. 2022 Chem Soc Rev. 51 6574-6651
    Paper not yet in RePEc: Add citation now
    

1. Advancements and Challenges in Direct Air Capture Technologies: Energy Intensity, Novel Methods, Economics, and Location Strategies. (2025). Baszczeska, Oliwia ; Niesporek, Kamil ; Kotowicz, Janusz.
   In: Energies.
   RePEc:gam:jeners:v:18:y:2025:i:3:p:496-:d:1573662.

   Full description at Econpapers || Download paper

2. Effect of Humidity on the Energy and CO 2 Separation Characteristics of Membranes in Direct Air Capture Technology. (2025). Niesporek, Kamil ; Baszczeska, Oliwia ; Kotowicz, Janusz ; Wiciak, Grzegorz.
   In: Energies.
   RePEc:gam:jeners:v:18:y:2025:i:13:p:3422-:d:1690396.

   Full description at Econpapers || Download paper

3. Evaluating the suitability of direct air carbon capture and storage in Virginia using geospatial multi-criteria decision analysis. (2025). Salehi, Nafiseh ; Shafiee-Jood, Majid ; Colosi, Lisa M.
   In: Renewable and Sustainable Energy Reviews.
   RePEc:eee:rensus:v:216:y:2025:i:c:s1364032125003429.

   Full description at Econpapers || Download paper

4. Design considerations for the marinisation of offshore direct air capture. (2025). Ishaq, Haris ; Crawford, Curran ; Foxall, Ryan.
   In: Energy.
   RePEc:eee:energy:v:316:y:2025:i:c:s0360544224036429.

   Full description at Econpapers || Download paper

5. Techno-economic analysis of electrochemical carbon capture from oceanwater integrated with hydrates-based sequestration. (2025). Hamalian, Mark ; Bhati, Awan ; Bahadur, Vaibhav ; Maynor, Karey.
   In: Applied Energy.
   RePEc:eee:appene:v:392:y:2025:i:c:s0306261925006907.

   Full description at Econpapers || Download paper

6. Impact of direct air capture process flexibility and response to ambient conditions in net-zero transition of the power grid. (2025). Schell, Kristen R ; Arwa, Erick O.
   In: Applied Energy.
   RePEc:eee:appene:v:386:y:2025:i:c:s030626192500279x.

   Full description at Econpapers || Download paper

7. Wind curtailment powered flexible direct air capture. (2025). Yu, Lijun ; Fujikawa, Shigenori ; Wang, Lun ; Feng, Yuanfan ; Miao, Yihe ; Liu, Yuhang.
   In: Applied Energy.
   RePEc:eee:appene:v:377:y:2025:i:pc:s0306261924017859.

   Full description at Econpapers || Download paper

8. CCUS Perspectives: Assessing Historical Contexts, Current Realities, and Future Prospects. (2024). Ampomah, William ; Nyamekye, Warden Ivan ; Koranteng, Desmond Ofori ; Morgan, Anthony.
   In: Energies.
   RePEc:gam:jeners:v:17:y:2024:i:17:p:4248-:d:1463807.

   Full description at Econpapers || Download paper

9. Strategic Siting of Direct Air Capture Facilities in the United States. (2024). Sharma, Smriti ; Boerst, Jason ; Cabra, Ivonne Pena ; Zaremsky, Connie.
   In: Energies.
   RePEc:gam:jeners:v:17:y:2024:i:15:p:3755-:d:1445954.

   Full description at Econpapers || Download paper

10. Direct air capture capacity configuration and cost allocation based on sharing mechanism. (2024). Zhang, Xueguang ; Wang, Qian ; Du, Caiyi.
    In: Applied Energy.
    RePEc:eee:appene:v:374:y:2024:i:c:s030626192401420x.

    Full description at Econpapers || Download paper

11. The nexus between direct air capture technology and CO2 emissions in the transport sector. (2024). Managi, Shunsuke ; Kose, Nezir ; Unal, Emre ; Chapman, Andrew ; Keeley, Alexander Ryota.
    In: Applied Energy.
    RePEc:eee:appene:v:363:y:2024:i:c:s0306261924004951.

    Full description at Econpapers || Download paper

12. Net-zero carbon configuration approach for direct air carbon capture based integrated energy system considering dynamic characteristics of CO2 adsorption and desorption. (2024). Wu, Xiao ; Yang, Lihua.
    In: Applied Energy.
    RePEc:eee:appene:v:358:y:2024:i:c:s0306261923019724.

    Full description at Econpapers || Download paper

13. Batteries or silos: Optimizing storage capacity in direct air capture plants to maximize renewable energy use. (2024). Schell, Kristen R ; Arwa, Erick O.
    In: Applied Energy.
    RePEc:eee:appene:v:355:y:2024:i:c:s0306261923017099.

    Full description at Econpapers || Download paper

14. A comparative exergy-based assessment of direct air capture technologies. (2023). Hoseinpoori, Sina ; Thunman, Henrik ; Johnsson, Filip ; Pallares, David.
    In: Mitigation and Adaptation Strategies for Global Change.
    RePEc:spr:masfgc:v:28:y:2023:i:7:d:10.1007_s11027-023-10076-3.

    Full description at Econpapers || Download paper

15. The Role of Direct Air Capture in EU’s Decarbonisation and Associated Carbon Intensity for Synthetic Fuels Production. (2023). Szabo, Sandor ; Gonzalezsanchez, Rocio ; Buffi, Marco ; Kakoulaki, Georgia ; Chatzipanagi, Anatoli.
    In: Energies.
    RePEc:gam:jeners:v:16:y:2023:i:9:p:3881-:d:1138804.

    Full description at Econpapers || Download paper

16. Pathways to net-zero emissions from Chinas transportation industry: Considering alternative fuels. (2023). Li, Wei ; Wang, Ting ; Lu, Can.
    In: Energy.
    RePEc:eee:energy:v:283:y:2023:i:c:s0360544223024532.

    Full description at Econpapers || Download paper

17. Modeling and optimization of carbon-negative NGCC plant enabled by modular direct air capture. (2023). Realff, Matthew J ; Dombrowski, Katherine D ; Scott, Joseph K ; Hendrix, Howard ; Thierry, David M ; Sachde, Darshan J ; Cheng, Pengfei.
    In: Applied Energy.
    RePEc:eee:appene:v:341:y:2023:i:c:s0306261923004403.

    Full description at Econpapers || Download paper

18. Material flows and embodied energy of direct air capture: A cradle‐to‐gate inventory of selected technologies. (2023). Simon, Balint.
    In: Journal of Industrial Ecology.
    RePEc:bla:inecol:v:27:y:2023:i:3:p:646-661.

    Full description at Econpapers || Download paper

19. Multi-Objective Optimization of Integrated Solar-Driven CO 2 Capture System for an Industrial Building. (2022). Shen, Yongting ; Yang, Hongxing.
    In: Sustainability.
    RePEc:gam:jsusta:v:15:y:2022:i:1:p:526-:d:1017910.

    Full description at Econpapers || Download paper

20. A Critical Review on Decarbonizing Heating in China: Pathway Exploration for Technology with Multi-Sector Applications. (2022). Hou, Xiaoyang ; Zhong, Shuai ; Zhao, Jianan.
    In: Energies.
    RePEc:gam:jeners:v:15:y:2022:i:3:p:1183-:d:742977.

    Full description at Econpapers || Download paper

21. Potential photo-switching sorbents for CO2 capture – A review. (2022). Qiao, Yuanting ; Ke, Xuebin ; Huang, QI ; Bailey, Josh J ; Wu, Chunfei.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:158:y:2022:i:c:s1364032122000090.

    Full description at Econpapers || Download paper

22. Studies on the CO 2 Capture by Coal Fly Ash Zeolites: Process Design and Simulation. (2021). Boycheva, Silviya ; Marinov, Ivan ; Zgureva-Filipova, Denitza.
    In: Energies.
    RePEc:gam:jeners:v:14:y:2021:i:24:p:8279-:d:698100.

    Full description at Econpapers || Download paper

23. Design of steam-assisted temperature vacuum-swing adsorption processes for efficient CO2 capture from ambient air. (2021). Zhu, Xuancan ; Ge, Tianshu ; Wang, Ruzhu ; Yang, Fan.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:137:y:2021:i:c:s1364032120309357.

    Full description at Econpapers || Download paper

24. Intensified integrated direct air capture - power-to-gas process based on H2O and CO2 from ambient air. (2020). Agar, David W ; Drechsler, Carsten.
    In: Applied Energy.
    RePEc:eee:appene:v:273:y:2020:i:c:s0306261920305882.

    Full description at Econpapers || Download paper

25. Wind power to methanol: Renewable methanol production using electricity, electrolysis of water and CO2 air capture. (2020). Bos, M J ; Kersten, S. R. A., ; Brilman, D. W. F., .
    In: Applied Energy.
    RePEc:eee:appene:v:264:y:2020:i:c:s0306261920301847.

    Full description at Econpapers || Download paper

Report date: 2025-10-02 03:02:04 || Missing content? Let us know