POTENTIAL APPLICATION OF LIGNITE AS ADSORBENTS IN INDUSTRIAL WASTEWATER TREATMENT: A MINI REVIEW

  • Galuh Yuliani Chemistry Study Program, Universitas Pendidikan Indonesia,Dr. Setiabudi 229 Bandung, Indonesia

Abstrak

Low rank coal (or lignite) is a low grade, wet, low cost and highly abundant coal. The high moisture content of lignite limits its application as high-heating value fuel and also creates barrier for its export as fuel. However, this property should not necessarily hinder its use in the water industry. Similar to activated carbons, lignite has the theoretical ability to treat the wastewater by adsorbing contaminants from aqueous solution. This review paper highlights the potential use of lignite in wastewater treatment industry.

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Referensi

Aivalioti, M., D. Pothoulaki, P. Papoulias and E. Gidarakos (2010).

"Removal of BTEX, MTBE and TAME from aqueous solutions by

adsorption onto raw and thermally treated lignite." Journal of

Hazardous Materials 178(1-3):136-143.

Aksu, Z. (2005). "Application of biosorption for the removal of organic

pollutants: a review." Process Biochemistry 40(3-4): 997-1026.

Allen, S. J. and P. A. Brown (1995)."Isotherm analyses for single component and multi-component metal sorption onto lignite." Journal

of Chemical Technology & Biotechnology 62(1): 17-24.

Allen, S. J., M. Murray, P. Brown and O. Flynn (1994). "Peat as an

adsorbent for dyestuffs and metals in wastewater." Resources,

Conservation and Recycling 11(1-4): 25-39.

Arpa, Ç., E. Basyilmaz, S. Bektas, Ö. Genç and Y. Yürüm (2000).

"Cation exchange properties of low rank Turkish coals: removal of Hg,

Cd and Pb from waste water." Fuel Processing Technology 68(2): 111120.

Arslan, G. and E. Pehlivan (2008). "Uptake of Cr3+ from aqueous solution by lignite-based humic acids." Bioresource Technology 99(16): 7597-7605.

Artanto, Y. (2006.). Mechanical/thermal dewatering of low-rank coals:

optimisation and dynamics of coal structure during the process.

Clayton, PhD Thesis, Monash University. PhD Thesis: 33.

Bijan, L. and M. Mohseni (2005)."Integrated ozone and biotreatment

of pulp mill effluent and changes in biodegradability and molecular

weight distribution of organic compounds." Water Research 39(16): 3763-3772.

Butler, C. J., A. M. Green and A. L. Chaffee (2008). "MTE water

remediation using Loy Yang brown coal as a filter bed adsorbent." Fuel

(6): 894-904.

Duggan, O. and S. J. Allen (1997). "Study of the physical and chemical

characteristics of a range of chemically treated, lignite based

carbons." Water Science and Technology 35(7): 21-27.

Fu, F. and Q. Wang (2011). "Removal of heavy metal ions from

wastewaters: A review." Journal of Environmental Management 92(3):

-418.

Harold, H. S. (1995). Chapter 3 The organic structure of lignites. Coal

Science and Technology, Elsevier. Volume 23: 79-138. Havelcová, M., J. Mizera, I. Sýkorová and M. Pekar (2009). "Sorption of metal

ions on lignite and the derived humic substances." Journal of

Hazardous Materials 161(1): 559564.

Hüttinger, K. J. and A. W. Michenfelder (1987). "Molecular structure of a

brown coal." Fuel 66(8): 11641165.

Janos, P., J. Sypecká, P. Mlckovská, P. Kurán and V. Pilarová (2007).

"Removal of metal ions from aqueous solutions by sorption onto

untreated low-rank coal (oxihumolite)." Separation and Purification Technology 53(3): 322329.

Karatepe, N. (2003). "Adsorption of a non-ionic dispersant on lignite particle surfaces." Energy Conversion and Management 44(8): 1275-1284.

Kidena, K., S. Murata and M. Nomura (2008). "A newly proposed view on

coal molecular structure integrating two concepts: Two phase and

uniphase models." Fuel Processing Technology 89(4): 424-433.

Lafferty, C. and M. Hobday (1990). "The use of low rank brown coal as an

ion exchange material: 1. Basic parameters and the ion exchange

mechanism." Fuel 69(1): 78-83.

Mahajan, O. P. (1991). "CO2 surface area of coals: The 25-year paradox."

Carbon 29(6): 735-742.

Milicevic, S., T. Boljanac, S. Martinovic, M. Vlahovic, V. Milosevic and B. Babic (2012). "Removal of copper from aqueous solutions by low cost

adsorbent-Kolubara lignite." Fuel Processing Technology 95(0): 1-7.

Mohan, D. and S. Chander (2006). "Removal and recovery of metal

ions from acid mine drainage usinglignite--A low cost sorbent." Journal

of Hazardous Materials 137(3):1545-1553.

Mohan, D. and S. Chander (2006)."Single, binary, and multicomponent sorption of iron and manganese on lignite." Journal of Colloid and Interface Science 299(1): 76-87.

Pehlivan, E. and G. Arslan (2006). "Comparison of adsorption capacity of young brown coals and humic acids prepared from different coal mines in Anatolia." Journal of Hazardous Materials 138(2): 401-408.

Pehlivan, E. and G. Arslan (2007)."Removal of metal ions using lignite in aqueous solution--Low cost biosorbents." Fuel Processing Technology 88(1): 99-106.

Pentari, D., V. Perdikatsis, D. Katsimicha and A. Kanaki (2009). "Sorption

properties of low calorific value Greek lignites: Removal of lead,cadmium, zinc and copper ions from aqueous solutions." Journal of Hazardous Materials 168(2-3): 1017-1021.

Polat, H., M. Molva and M. Polat (2006)."Capacity and mechanism of

phenol adsorption on lignite."International Journal of Mineral Processing 79(4): 264-273.

Pope, C. G. (1984). "Lignite porosity study by kinetics of gas adsorption." Fuel 63(12): 1681-1686.

Pöykiö, R., H. Nurmesniemi and V.Kivilinna (2008). "EOX concentrations in sediment in the part of the Bothnian Bay affected by effluents from the pulp and paper mills at Kemi, Northern Finland." Environmental Monitoring and Assessment 139(1-3): 183194.

Qi, Y., A. F. A. Hoadley, A. L. Chaffee and G. Garnier (2011). "Characterisation of lignite as an industrial adsorbent." Fuel 90(4):

-1574.

Schafer, H. N. S. (1970). "Carboxyl groups and ion exchange in low-rank

coals." Fuel 49(2): 197-213.

Schafer, H. N. S. (1991). Chapter 7:Functional groups and ion exchange properties. The science of Victorian Brown Coal. R.A.Durie. Oxford, Butterworth-Heinemann Ltd: 323-357.

Schreiber, B., T. Brinkmann, V. Schmalz and E. Worch (2005). "Adsorption of dissolved organic matter onto activated carbon--the influence of temperature, absorption

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2015-08-08
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