Adsorption of Copper by using Microwave Incinerated Rice Husk Ash (MIRHA)
Many non-conventional adsorbent have been studied
as economic alternative to commercial activated carbon and mostly
agricultural waste have been introduced such as rubber leaf powder
and hazelnut shell. Microwave Incinerated Rice Husk Ash
(MIRHA), produced from the rice husk is one of the low-cost
materials that were used as adsorbent of heavy metal. The aim of
this research was to study the feasibility of using MIRHA500 and
MIRHA800 as adsorbent for the removal of Cu(II) metal ions from
aqueous solutions by the batch studies. The adsorption of Cu(II) into
MIRHA500 and MIRH800 favors Fruendlich isotherm and imply
pseudo – kinetic second order which applied chemisorptions
[1] Feng,Q., Q. Lin, F. Gong, S. Sugita and M. Shoya (2004), Adsorption of
lead and mercury by rice husk ash, Journal Colloid Interf. Sci, 278; pp.
1-8.
[2] Mutert, E., T.H. Fairhurst (2002); Developments in Rice Production in
Southeast Asia; Better Crops International; Vol. 15, Special Supplement,
May 2002.
Available:http://www.ipni.net/ppiweb/bcropint.nsf/$webindex/A6E539E
7C275E3E485256BDC00731AA9/$file/BCI-RICEp12.pdf
[3] Zain, M.F.M., M.N. Islam, F. Mahmud, M. Jamil (2011); Production of
rice husk ash for use in concrete as a supplementary cementitious
material, Construction and Building Materials 25 ; pp. 798-805.
[4] Srivastava, V.C., I.D. Mall, I. M. Mishra (2009); Competitive adsorption
of cadmium(II) and nickel(II) metal ions from aqueous solution onto rice
husk ash; Journal of Chemical Engineering and Processing 48 , pp.
370-379.
[5] Ajmal, M. , R. A. Khan, R. S. Anwar, J. Ahmad, R. Ahmad (2003);
Adsorption studies on rice husk: removal and recovery of Cd(II) from
wastewater; Bioresource Technology, 86 ; pp.147-149.
[6] Mohan,S., G. Sreelakshmi (2008); Fixed bed column study for heavy
metal removal using phosphate treated rice husk; Journal of Hazardous
Materials 153); pp. 75-82.
[7] Jang, H.T., Y.K. Park, Y.S. Ko, J.Y. Lee, B. Margandan (2009); Highly
siliceous MCM-48 from rice husk ash for CO2 adsorption; International
Journal of Greenhouse Gas Control 3 ; pp. 545- 549.
[8] Chuah, T.G. , A. Jumasiah , I. Azni , S. Katayon , S.Y. Thomas Choong
(2005), Rice husk as a potentially low-cost biosorbent: An overview;
Desalination, 175; pp. 305-316.
[9] Fauzi,F.H.(2008), Adsorption Of Copper, Zinc And Iron Using
Microwave Incinerated Rice Husk Ash (MIRHA) Column, Bachelor of
Engineering dissertation , University Teknologi PETRONAS.
[10] Isa,M.H, S. R. M. Kutty, S.R. Husin, N.A. Daud, A. Malakahmad
(2010); Cadmium Removal From Aqueous Solution Using Microwaved
Incinerated Rice Husk Ash (MIRHA), Proceedings for World
Engineering Congress (, Kuching, Sarawak, Malaysia.
[11] Merck, "Merck Manulas -- Online Medical Library: Copper". Merck.
November 2005. Available:
http://www.merckmanuals.com/professional/sec01/ch005/ch005c.html?q
t=copper%2520and%2520milk&alt=sh.
[12] Ngah, W.S.W., M.A.K.M. Hanafiah (2008); Adsorption of copper on
rubber (Hevea brasiliensis) leaf powder: Kinetic, equilibrium and
thermodynamic studies. Biochemical Engineering Journal 39, pp. 521-
530.
[13] Demirbas,E., N. Dizge, M.T. Sulak, M. Kobya (2009); Adsorption
kinetics and equilibrium of copper from aqueous solutions using
hazelnut shell activated carbon; Chemical Engineering Journal, 148 ;
pp.480- 487.
[14] Ozcimen, D., A.E. Mericboyu (2009); Removal of copper from aqueous
solutions by adsorption onto chestnut shell and grape seed activated
carbons; Journal of Hazardous Materials 168 ; pp. 1118 - 1125.
[15] Hoffland Enviromental [Online] (2011), Available:
http://www.hoffland.net/index.php/hydroxide-precipitation.html
[1] Feng,Q., Q. Lin, F. Gong, S. Sugita and M. Shoya (2004), Adsorption of
lead and mercury by rice husk ash, Journal Colloid Interf. Sci, 278; pp.
1-8.
[2] Mutert, E., T.H. Fairhurst (2002); Developments in Rice Production in
Southeast Asia; Better Crops International; Vol. 15, Special Supplement,
May 2002.
Available:http://www.ipni.net/ppiweb/bcropint.nsf/$webindex/A6E539E
7C275E3E485256BDC00731AA9/$file/BCI-RICEp12.pdf
[3] Zain, M.F.M., M.N. Islam, F. Mahmud, M. Jamil (2011); Production of
rice husk ash for use in concrete as a supplementary cementitious
material, Construction and Building Materials 25 ; pp. 798-805.
[4] Srivastava, V.C., I.D. Mall, I. M. Mishra (2009); Competitive adsorption
of cadmium(II) and nickel(II) metal ions from aqueous solution onto rice
husk ash; Journal of Chemical Engineering and Processing 48 , pp.
370-379.
[5] Ajmal, M. , R. A. Khan, R. S. Anwar, J. Ahmad, R. Ahmad (2003);
Adsorption studies on rice husk: removal and recovery of Cd(II) from
wastewater; Bioresource Technology, 86 ; pp.147-149.
[6] Mohan,S., G. Sreelakshmi (2008); Fixed bed column study for heavy
metal removal using phosphate treated rice husk; Journal of Hazardous
Materials 153); pp. 75-82.
[7] Jang, H.T., Y.K. Park, Y.S. Ko, J.Y. Lee, B. Margandan (2009); Highly
siliceous MCM-48 from rice husk ash for CO2 adsorption; International
Journal of Greenhouse Gas Control 3 ; pp. 545- 549.
[8] Chuah, T.G. , A. Jumasiah , I. Azni , S. Katayon , S.Y. Thomas Choong
(2005), Rice husk as a potentially low-cost biosorbent: An overview;
Desalination, 175; pp. 305-316.
[9] Fauzi,F.H.(2008), Adsorption Of Copper, Zinc And Iron Using
Microwave Incinerated Rice Husk Ash (MIRHA) Column, Bachelor of
Engineering dissertation , University Teknologi PETRONAS.
[10] Isa,M.H, S. R. M. Kutty, S.R. Husin, N.A. Daud, A. Malakahmad
(2010); Cadmium Removal From Aqueous Solution Using Microwaved
Incinerated Rice Husk Ash (MIRHA), Proceedings for World
Engineering Congress (, Kuching, Sarawak, Malaysia.
[11] Merck, "Merck Manulas -- Online Medical Library: Copper". Merck.
November 2005. Available:
http://www.merckmanuals.com/professional/sec01/ch005/ch005c.html?q
t=copper%2520and%2520milk&alt=sh.
[12] Ngah, W.S.W., M.A.K.M. Hanafiah (2008); Adsorption of copper on
rubber (Hevea brasiliensis) leaf powder: Kinetic, equilibrium and
thermodynamic studies. Biochemical Engineering Journal 39, pp. 521-
530.
[13] Demirbas,E., N. Dizge, M.T. Sulak, M. Kobya (2009); Adsorption
kinetics and equilibrium of copper from aqueous solutions using
hazelnut shell activated carbon; Chemical Engineering Journal, 148 ;
pp.480- 487.
[14] Ozcimen, D., A.E. Mericboyu (2009); Removal of copper from aqueous
solutions by adsorption onto chestnut shell and grape seed activated
carbons; Journal of Hazardous Materials 168 ; pp. 1118 - 1125.
[15] Hoffland Enviromental [Online] (2011), Available:
http://www.hoffland.net/index.php/hydroxide-precipitation.html
@article{"International Journal of Architectural, Civil and Construction Sciences:51443", author = "N.A.Johan and S.R.M.Kutty and M. H. Isa and N.S.Muhamad and H.Hashim", title = "Adsorption of Copper by using Microwave Incinerated Rice Husk Ash (MIRHA)", abstract = "Many non-conventional adsorbent have been studied
as economic alternative to commercial activated carbon and mostly
agricultural waste have been introduced such as rubber leaf powder
and hazelnut shell. Microwave Incinerated Rice Husk Ash
(MIRHA), produced from the rice husk is one of the low-cost
materials that were used as adsorbent of heavy metal. The aim of
this research was to study the feasibility of using MIRHA500 and
MIRHA800 as adsorbent for the removal of Cu(II) metal ions from
aqueous solutions by the batch studies. The adsorption of Cu(II) into
MIRHA500 and MIRH800 favors Fruendlich isotherm and imply
pseudo – kinetic second order which applied chemisorptions", keywords = "Copper (II) aqueous solution, batch study,MIRHA500, MIRHA800, Microwave Incinerated Rice Husk Ash(MIRHA)", volume = "5", number = "8", pages = "316-5", }
