12
flotation column and mixed collectors. Minerals,
2023, 13 (7):849.
[72] Taguta J, Safari M, Govender V, Chetty D (2023)
Investigating the amenability of a PGM-bearing ore
to coarse particle flotation. Minerals 2023, 13, 698.
[73] Capponi F, Azevedo A, Oliveira H, Rubio J (2023)
Column rougher flotation of fine niobium-bear-
ing particles assisted with micro and nanobubbles.
Minerals Engineering, Volume 199, 108119.
[74] Lu B, Xu W, Luo C, Li W, Su X, Song Y, Zhou J and
Li K (2023) Effect of nanobubbles on the flotation
behavior of microfine-grained serpentine. Minerals
2023, 13, 1299.
[75] Hashim M A, Mukhopadhyay S, Gupta B S, Sahu
J N (2012) Application of colloidal gas aphrons for
pollution remediation. J Chem Technol Biotechnol
87:305–24.
[76] Reyes R, Flores J V (2017) Efficiency of micro-nano-
bubbles for wastewater treatment in puerto bermú-
dez, oxapampa, pasco. Journal of Nanotechnology
1(1): 18–24.
[77] Shi Y, Yang J, Ma J, Luo C (2017) Feasibility of bub-
ble surface modification for natural organic matter
removal from river water using dissolved air flotation.
Frontiers of Environmental Science &Engineering
11: 10.
[78] Temesgem T, Bui T T, Han M Y, Kim T I, Park H J
(2017) Micro and nanobubble technologies as a new
horizon for water-treatment techniques: A review.
Advances in Colloid and Interface Science 246:
40–51.
[79] Uchida T, Oshita S, Ohmori M, Tsuno T, Soejima
K, Shinozaki S, et al (2011) Transmission electron
microscopic observations of nanobubbles and their
capture impurities in wastewater. Nanoscale Res Lett
6. 295:1–9.
[80] Senthilkumar G and SL Sankar SL (2023)
Implementation of micro-nanobubbles technology
for the treatment of domestic wastewater: experi-
mental study. Water, Air, &Soil Pollution, 234, 46
(2023).
[81] He Y, Zhang T, Lv L, Tang W, Wang Y, Zhou J, Tang
S (2023) Application of microbubbles in chemis-
try, wastewater treatment, medicine, cosmetics, and
agriculture: a review. Environmental Chemistry
Letters volume 21, pages 3245–3271.
[82] Wang Z, An C, Lee K, Feng Q, Zhang B (2023)
Exploring the role of nanobubbles in the fate and
transport of spilled oil on shorelines. ACS EST
Water 2023, 3, 1, 30–40.
[83] Kamei T, Tsutsumi Y, Rujakom S, Eamrat R, Kazama
F (2023) Hydrogenotrophic denitrification for treat-
ment of nitrate-contaminated groundwater: Using
a microbubble diffuser to optimize performance.
Journal of Water Process Engineering 55 (2023)
104062 .
[84] Marcelino K R, Ling L, Wongkiew S, Nhan H T,
Surendra K. C., Shitanaka T, Lu H, Khanal S K
(2023) Nanobubble technology applications in envi-
ronmental and agricultural systems: Opportunities
and challenges. Critical Reviews in Environmental
Science and Technology, Volume 53, 2023 -Issue 14,
Pages 1378–1403.
[85] Kumar S (2023) Smart and innovative nanotech-
nology applications for water purification. Hybrid
Advances, Volume 3, August 2023, 100044.
[86] Huang H, Yang X, Wu Z ,Qiao B, Ma G, Shao H, Tao
D (2023) An investigation of nanobubble enhanced
flotation for fly ash decarbonization. Colloids and
Surfaces A: Physicochemical and Engineering Aspects,
Volume 679, 132563.
[87] Nazari S, Li J L, Khoshdast H, Li J H, Ye C L, He Y
Q, Hassanzadeh A (2023) Effect of roasting pretreat-
ment on micro-nanobubble-assisted flotation of spent
lithium-ion batteries. Journal of Materials Research
and Technology, Volume 24, Pages 2113–2128.
[88] Fan M M, Hobert D (2022) Fundamentals and appli-
cations of green modifiers for froth flotation. Mining,
Metallurgy &Exploration, Vol. 39, Pages 39–48.
[89] Alheshibri M H (2019) Nanobubbles in bulk. Ph D
dissertation. Research School of Physics and Eng, The
Australian National University.
[90] Azevedo A, Oliveira H, Rubio J (2019) Bulk nano-
bubbles in the mineral and environmental areas:
Updating research and applications. Advances in
Colloid and Interface Science 271:101992.
[91] Zhou S, Nazari S, Hassanzadeh A, Bu X, Ni C, Peng
Y, Xie G, He Y (2022) The effect of preparation time
and aeration rate on the properties of bulk micro-
nanobubble water using hydrodynamic cavitation.
Ultrasonics Sonochemistry 84, 105965 Page 1–9.
[92] Zhang R, Gao Y, Chen L, Ge G (2022) Nanobubble
boundary layer thickness quantified by solvent relax-
ation NMR. Journal of Colloid and Interface Science
609, Page 637–644.
[93] Bu X, Zhou S, Tian X, Ni C, Nazari S, Alheshibricd
M (2022) Effect of aging time, airflow rate, and non-
ionic surfactants on the surface tension of bulk nano-
bubbles water. Journal of Molecular Liquids 359,
119274.
flotation column and mixed collectors. Minerals,
2023, 13 (7):849.
[72] Taguta J, Safari M, Govender V, Chetty D (2023)
Investigating the amenability of a PGM-bearing ore
to coarse particle flotation. Minerals 2023, 13, 698.
[73] Capponi F, Azevedo A, Oliveira H, Rubio J (2023)
Column rougher flotation of fine niobium-bear-
ing particles assisted with micro and nanobubbles.
Minerals Engineering, Volume 199, 108119.
[74] Lu B, Xu W, Luo C, Li W, Su X, Song Y, Zhou J and
Li K (2023) Effect of nanobubbles on the flotation
behavior of microfine-grained serpentine. Minerals
2023, 13, 1299.
[75] Hashim M A, Mukhopadhyay S, Gupta B S, Sahu
J N (2012) Application of colloidal gas aphrons for
pollution remediation. J Chem Technol Biotechnol
87:305–24.
[76] Reyes R, Flores J V (2017) Efficiency of micro-nano-
bubbles for wastewater treatment in puerto bermú-
dez, oxapampa, pasco. Journal of Nanotechnology
1(1): 18–24.
[77] Shi Y, Yang J, Ma J, Luo C (2017) Feasibility of bub-
ble surface modification for natural organic matter
removal from river water using dissolved air flotation.
Frontiers of Environmental Science &Engineering
11: 10.
[78] Temesgem T, Bui T T, Han M Y, Kim T I, Park H J
(2017) Micro and nanobubble technologies as a new
horizon for water-treatment techniques: A review.
Advances in Colloid and Interface Science 246:
40–51.
[79] Uchida T, Oshita S, Ohmori M, Tsuno T, Soejima
K, Shinozaki S, et al (2011) Transmission electron
microscopic observations of nanobubbles and their
capture impurities in wastewater. Nanoscale Res Lett
6. 295:1–9.
[80] Senthilkumar G and SL Sankar SL (2023)
Implementation of micro-nanobubbles technology
for the treatment of domestic wastewater: experi-
mental study. Water, Air, &Soil Pollution, 234, 46
(2023).
[81] He Y, Zhang T, Lv L, Tang W, Wang Y, Zhou J, Tang
S (2023) Application of microbubbles in chemis-
try, wastewater treatment, medicine, cosmetics, and
agriculture: a review. Environmental Chemistry
Letters volume 21, pages 3245–3271.
[82] Wang Z, An C, Lee K, Feng Q, Zhang B (2023)
Exploring the role of nanobubbles in the fate and
transport of spilled oil on shorelines. ACS EST
Water 2023, 3, 1, 30–40.
[83] Kamei T, Tsutsumi Y, Rujakom S, Eamrat R, Kazama
F (2023) Hydrogenotrophic denitrification for treat-
ment of nitrate-contaminated groundwater: Using
a microbubble diffuser to optimize performance.
Journal of Water Process Engineering 55 (2023)
104062 .
[84] Marcelino K R, Ling L, Wongkiew S, Nhan H T,
Surendra K. C., Shitanaka T, Lu H, Khanal S K
(2023) Nanobubble technology applications in envi-
ronmental and agricultural systems: Opportunities
and challenges. Critical Reviews in Environmental
Science and Technology, Volume 53, 2023 -Issue 14,
Pages 1378–1403.
[85] Kumar S (2023) Smart and innovative nanotech-
nology applications for water purification. Hybrid
Advances, Volume 3, August 2023, 100044.
[86] Huang H, Yang X, Wu Z ,Qiao B, Ma G, Shao H, Tao
D (2023) An investigation of nanobubble enhanced
flotation for fly ash decarbonization. Colloids and
Surfaces A: Physicochemical and Engineering Aspects,
Volume 679, 132563.
[87] Nazari S, Li J L, Khoshdast H, Li J H, Ye C L, He Y
Q, Hassanzadeh A (2023) Effect of roasting pretreat-
ment on micro-nanobubble-assisted flotation of spent
lithium-ion batteries. Journal of Materials Research
and Technology, Volume 24, Pages 2113–2128.
[88] Fan M M, Hobert D (2022) Fundamentals and appli-
cations of green modifiers for froth flotation. Mining,
Metallurgy &Exploration, Vol. 39, Pages 39–48.
[89] Alheshibri M H (2019) Nanobubbles in bulk. Ph D
dissertation. Research School of Physics and Eng, The
Australian National University.
[90] Azevedo A, Oliveira H, Rubio J (2019) Bulk nano-
bubbles in the mineral and environmental areas:
Updating research and applications. Advances in
Colloid and Interface Science 271:101992.
[91] Zhou S, Nazari S, Hassanzadeh A, Bu X, Ni C, Peng
Y, Xie G, He Y (2022) The effect of preparation time
and aeration rate on the properties of bulk micro-
nanobubble water using hydrodynamic cavitation.
Ultrasonics Sonochemistry 84, 105965 Page 1–9.
[92] Zhang R, Gao Y, Chen L, Ge G (2022) Nanobubble
boundary layer thickness quantified by solvent relax-
ation NMR. Journal of Colloid and Interface Science
609, Page 637–644.
[93] Bu X, Zhou S, Tian X, Ni C, Nazari S, Alheshibricd
M (2022) Effect of aging time, airflow rate, and non-
ionic surfactants on the surface tension of bulk nano-
bubbles water. Journal of Molecular Liquids 359,
119274.