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“Recent advances in functionalized composite
solid materials for carbon dioxide capture,” Energy,
vol. 124, pp. 461–480, Apr. 2017, doi: 10.1016
/J.ENERGY.2017.02.053.
[8] M.S. Shafeeyan, W.M.A.W. Daud, A. Houshmand,
and A. Shamiri, “A review on surface modification
of activated carbon for carbon dioxide adsorption,” J
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2010, doi: 10.1016/J.JAAP.2010.07.006.
[9] A.E. Creamer and B. Gao, “Carbon-based adsorbents
for postcombustion CO2 capture: A critical review,”
Environ Sci Technol, vol. 50, no. 14, pp. 7276–7289,
Jul. 2016, doi: 10.1021/ACS.EST.6B00627/ASSET
/IMAGES/LARGE/ES-2016-00627A_0011.JPEG.
[10] F. Rodríguez-Reinoso and M. Molina-Sabio,
“Textural and chemical characterization of micro-
porous carbons,” Adv Colloid Interface Sci, vol.
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/S0001-8686(98)00049-9.
[11] J. Shao et al., “Enhance SO2 adsorption performance
of biochar modified by CO2 activation and amine
impregnation,” Fuel, vol. 224, pp. 138–146, Jul.
2018, doi: 10.1016/J.FUEL.2018.03.064.
[12] P. Smith, “Soil carbon sequestration and biochar as
negative emission technologies,” Glob Chang Biol, vol.
22, no. 3, pp. 1315–1324, Mar. 2016, doi: 10.1111
/GCB.13178.
[13] O.S. Amuda, A.A. Giwa, and I.A. Bello, “Removal
of heavy metal from industrial wastewater using
modified activated coconut shell carbon,” Biochem
Eng J, vol. 36, no. 2, pp. 174–181, Sep. 2007, doi:
10.1016/J.BEJ.2007.02.013.
[14] P.D. Dissanayake et al., “Biochar-based adsorbents for
carbon dioxide capture: A critical review,” Renewable
and Sustainable Energy Reviews, vol. 119, p. 109582,
Mar. 2020, doi: 10.1016/J.RSER.2019.109582.
[15] W. Tian et al., “Amine-Modified Biochar for the
Efficient Adsorption of Carbon Dioxide in Flue Gas,”
Atmosphere 2022, Vol. 13, Page 579, vol. 13, no. 4,
p. 579, Apr. 2022, doi: 10.3390/ATMOS13040579.
[16] Y. Zhang, X. Yue, W. Xu, H. Zhang, and F. Li,
“Amino modification of rice straw-derived biochar
for enhancing its cadmium (II) ions adsorption from
water,” J Hazard Mater, vol. 379, p. 120783, Nov.
2019, doi: 10.1016/J.JHAZMAT.2019.120783.
[17] “DOE Industrial Decarbonization Roadmap”
Accessed: Oct. 10, 2023. [Online]. Available:
https://www.energy.gov/industrial-technologies/
doe-industrial-decarbonization-roadmap
[18] J.C. Charpentier, “Process Intensification by
Miniaturization,” Chem Eng Technol, vol. 28,
no. 3, pp. 255–258, Mar. 2005, doi: 10.1002
/CEAT.200407026.
[19] E. and M. National Academies of Sciences, “New
Directions for Chemical Engineering,” New Directions
for Chemical Engineering, pp. 1–369, Feb. 2022, doi:
10.17226/26342.
[20] I. Purnawan, “Process Optimisation and
Intensification Principles and Tools: An Explorative
Review for Potential Application in Minerals
Processing,” Feb. 2006.
[21] “Home -Resodyn Acoustic Mixers.” Accessed: Oct.
31, 2022. [Online]. Available: https://resodynmixers
.com
[22] H.M. Titi, J.L. Do, A.J. Howarth, K. Nagapudi,
and T. Friščić, “Simple, scalable mechanosynthesis
of metal–organic frameworks using liquid-assisted
resonant acoustic mixing (LA-RAM),” Chem Sci, vol.
11, no. 29, pp. 7578–7584, Jul. 2020, doi: 10.1039
/D0SC00333F.
[23] H.M. Titi, J.L. Do, A.J. Howarth, K. Nagapudi,
and T. Friščić, “Simple, scalable mechanosynthesis
of metal–organic frameworks using liquid-assisted
resonant acoustic mixing (LA-RAM),” Chem Sci, vol.
11, no. 29, pp. 7578–7584, Jul. 2020, doi: 10.1039
/D0SC00333F.
[24] K.H. Tan, Determination of soil water. In: Soil sam-
pling, preparation, and analysis, vol. 1. CRC Press:
Taylor and Francis Group, 2005. Accessed: Sep. 17,
2023. [Online]. Available: https://www.routledge
.com/Soil-Sampling-Preparation-and-Analysis
/Tan/p/book/9780849334993
[25] L. Pronzato, “Optimal experimental design and
some related control problems,” Automatica, vol.
44, no. 2, pp. 303–325, Feb. 2008, doi: 10.1016
/j.automatica.2007.05.016.
[26] M.G. Larson, “Analysis of variance,” Circulation, vol.
117, no. 1, pp. 115–121, Jan. 2008, doi: 10.1161
/CIRCULATIONAHA.107.654335.
[27] S. Brunauer, P.H. Emmett, and E. Teller, “Adsorption
of Gases in Multimolecular Layers,” J Am Chem Soc,
vol. 60, no. 2, pp. 309–319, Feb. 1938, doi: 10.1021/
ja01269a023.
[28] J. Ding, V. Tarokh, and Y. Yang, “Model Selection
Techniques: An Overview,” IEEE Signal Process Mag,
vol. 35, no. 6, pp. 16–34, Nov. 2018, doi: 10.1109/
MSP.2018.2867638.
[7] A.L. Yaumi, M.Z.A. Bakar, and B.H. Hameed,
“Recent advances in functionalized composite
solid materials for carbon dioxide capture,” Energy,
vol. 124, pp. 461–480, Apr. 2017, doi: 10.1016
/J.ENERGY.2017.02.053.
[8] M.S. Shafeeyan, W.M.A.W. Daud, A. Houshmand,
and A. Shamiri, “A review on surface modification
of activated carbon for carbon dioxide adsorption,” J
Anal Appl Pyrolysis, vol. 89, no. 2, pp. 143–151, Nov.
2010, doi: 10.1016/J.JAAP.2010.07.006.
[9] A.E. Creamer and B. Gao, “Carbon-based adsorbents
for postcombustion CO2 capture: A critical review,”
Environ Sci Technol, vol. 50, no. 14, pp. 7276–7289,
Jul. 2016, doi: 10.1021/ACS.EST.6B00627/ASSET
/IMAGES/LARGE/ES-2016-00627A_0011.JPEG.
[10] F. Rodríguez-Reinoso and M. Molina-Sabio,
“Textural and chemical characterization of micro-
porous carbons,” Adv Colloid Interface Sci, vol.
76–77, pp. 271–294, Jul. 1998, doi: 10.1016
/S0001-8686(98)00049-9.
[11] J. Shao et al., “Enhance SO2 adsorption performance
of biochar modified by CO2 activation and amine
impregnation,” Fuel, vol. 224, pp. 138–146, Jul.
2018, doi: 10.1016/J.FUEL.2018.03.064.
[12] P. Smith, “Soil carbon sequestration and biochar as
negative emission technologies,” Glob Chang Biol, vol.
22, no. 3, pp. 1315–1324, Mar. 2016, doi: 10.1111
/GCB.13178.
[13] O.S. Amuda, A.A. Giwa, and I.A. Bello, “Removal
of heavy metal from industrial wastewater using
modified activated coconut shell carbon,” Biochem
Eng J, vol. 36, no. 2, pp. 174–181, Sep. 2007, doi:
10.1016/J.BEJ.2007.02.013.
[14] P.D. Dissanayake et al., “Biochar-based adsorbents for
carbon dioxide capture: A critical review,” Renewable
and Sustainable Energy Reviews, vol. 119, p. 109582,
Mar. 2020, doi: 10.1016/J.RSER.2019.109582.
[15] W. Tian et al., “Amine-Modified Biochar for the
Efficient Adsorption of Carbon Dioxide in Flue Gas,”
Atmosphere 2022, Vol. 13, Page 579, vol. 13, no. 4,
p. 579, Apr. 2022, doi: 10.3390/ATMOS13040579.
[16] Y. Zhang, X. Yue, W. Xu, H. Zhang, and F. Li,
“Amino modification of rice straw-derived biochar
for enhancing its cadmium (II) ions adsorption from
water,” J Hazard Mater, vol. 379, p. 120783, Nov.
2019, doi: 10.1016/J.JHAZMAT.2019.120783.
[17] “DOE Industrial Decarbonization Roadmap”
Accessed: Oct. 10, 2023. [Online]. Available:
https://www.energy.gov/industrial-technologies/
doe-industrial-decarbonization-roadmap
[18] J.C. Charpentier, “Process Intensification by
Miniaturization,” Chem Eng Technol, vol. 28,
no. 3, pp. 255–258, Mar. 2005, doi: 10.1002
/CEAT.200407026.
[19] E. and M. National Academies of Sciences, “New
Directions for Chemical Engineering,” New Directions
for Chemical Engineering, pp. 1–369, Feb. 2022, doi:
10.17226/26342.
[20] I. Purnawan, “Process Optimisation and
Intensification Principles and Tools: An Explorative
Review for Potential Application in Minerals
Processing,” Feb. 2006.
[21] “Home -Resodyn Acoustic Mixers.” Accessed: Oct.
31, 2022. [Online]. Available: https://resodynmixers
.com
[22] H.M. Titi, J.L. Do, A.J. Howarth, K. Nagapudi,
and T. Friščić, “Simple, scalable mechanosynthesis
of metal–organic frameworks using liquid-assisted
resonant acoustic mixing (LA-RAM),” Chem Sci, vol.
11, no. 29, pp. 7578–7584, Jul. 2020, doi: 10.1039
/D0SC00333F.
[23] H.M. Titi, J.L. Do, A.J. Howarth, K. Nagapudi,
and T. Friščić, “Simple, scalable mechanosynthesis
of metal–organic frameworks using liquid-assisted
resonant acoustic mixing (LA-RAM),” Chem Sci, vol.
11, no. 29, pp. 7578–7584, Jul. 2020, doi: 10.1039
/D0SC00333F.
[24] K.H. Tan, Determination of soil water. In: Soil sam-
pling, preparation, and analysis, vol. 1. CRC Press:
Taylor and Francis Group, 2005. Accessed: Sep. 17,
2023. [Online]. Available: https://www.routledge
.com/Soil-Sampling-Preparation-and-Analysis
/Tan/p/book/9780849334993
[25] L. Pronzato, “Optimal experimental design and
some related control problems,” Automatica, vol.
44, no. 2, pp. 303–325, Feb. 2008, doi: 10.1016
/j.automatica.2007.05.016.
[26] M.G. Larson, “Analysis of variance,” Circulation, vol.
117, no. 1, pp. 115–121, Jan. 2008, doi: 10.1161
/CIRCULATIONAHA.107.654335.
[27] S. Brunauer, P.H. Emmett, and E. Teller, “Adsorption
of Gases in Multimolecular Layers,” J Am Chem Soc,
vol. 60, no. 2, pp. 309–319, Feb. 1938, doi: 10.1021/
ja01269a023.
[28] J. Ding, V. Tarokh, and Y. Yang, “Model Selection
Techniques: An Overview,” IEEE Signal Process Mag,
vol. 35, no. 6, pp. 16–34, Nov. 2018, doi: 10.1109/
MSP.2018.2867638.