Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Ani Iryani, Djoko Hartanto

Judul : Textile Dyes Removal by ZSM-5 from Bangka Kaolin

Abstrak :
Textile Dyes Removal by ZSM-5 from Bangka Kaolin Iryani, A1 and Hartanto, D2 1Chemistry Departement, FMIPA UNPAK Bogor, Indonesia 2Chemistry Departement, FIA ITS Surabaya, Indonesia 2E-mail : djokohar023@gmail.com; djokohar@its.ac.id Abstract. The ZSM-5- adsorption capacity, which is synthesized directly from Bangka kaolin, has been thoroughly to remove the basic dye in a textile waste solution. The Langmuir and Freundlich isotherm models were used to analyze and measure the results of experimental adsorption data from the red adsorption of Congo Red (CR), Auramin (Au), Methylen Blue (MB), Azin (Az), Rodamin B (RB) on ZSM-5 at a temperature of 40 0C. The ZSM-5 adsorption capacity of Bangka kaolin showed dye absorption : Congo Red, Auramin, Methylen Blue, Azin and Rodamin B respectively were 129,157, 134, 205 and 210 mg/g. Therefore, ZM-5 of Bangka kaolin is respectively good adsorbent to remove the textile base dye waste.

Tahun : 2018 Media Publikasi : Jurnal Internasional

Kategori : Jurnal No/Vol/Tahun : 012011 / 1095 / 2018

ISSN/ISBN : 1742-6596

PTN/S : Universitas Pakuan Program Studi : KIMIA

Bibliography :
[1] Bagane M and Guiza S 2000 Ann. Chim. Sci. Mater. 25 615.

[2] Imamura K, Ikeda E, Nagayasu T, Sakiyama T and Nakanishi K 2002 J. Colloid Interface Sci. 245 50

[3] El-Geundi M 1997 Adsorp. Sci. Technol. 15 777

[4] McKay G 1992 J. Chem. Technol. Biotechnol. 32 759.

[5] Dai M 1998 J. Colloid Interface Sci. 198 6.

[6] Gemeay A H, El-Sherbiny A S and Zaki A 2002 J. Colloid Interface Sci. 245 116.

[7] Abbasi M N and Asl R 2008 J. Hazard. Mater. 153 942.

[8] Gupta V.K., Mittal A., Jain R., Mathur M., Sikarwar S., 2007 J. Colloid. Interface Sci. 309 460.

[9] Fan L, Zhou Y, Yang W, Chen G, Yang F 2008 Electrochemical degradation of aqueous solution of Amaranth azo dye on ACF under potentiostatic model, Dyes Pigments, 76 440.

[10] Zonoozi M.H., Moghaddam M.R.A., Arami M. 2009 Water Sci. Technol. 59 1343.

[11] Sachdeva S and Kumar A 2009 Membr J. Sci. 329 2.

[12] Tan I A W, Ahmad A L and Hameed B H 2008 J. Hazard. Mater. 154 337.

[13] Malik P K and Saha S K 2003 Sep. Purif. Technol. 31 241.

[14] Holzheu, S. and Hoffmann, H. 2002 J. Colloid Interface Sci. 245 16

[15] Prasetyoko D, Ayunanda N, Fansuri H and Hartanto D 2012 J. Math. Fund. Sci., 44 A (3) 250.

[16] Hartanto D, Saputro O, Utomo WP, Rosyidah A, Sugiarso D, Ersam T, Nur H and Prasetyoko D 2016 Chemistry - An Asian Journal, 28(1) 211.

[17] Hartanto D, Yuan LS, Sari SM, Sugiarso D, Murwani IK and Ersam T 2016, Malaysian Journal of Fundamental and Applied Sciences 12 (2) 85

[18] Prasetyoko D, Ayunanda N, Fansuri H, Hartanto D and Ramli Z 2016 Journal of Mathematical and Fundamental Sciences 44 (3) 250.

[19] Ojedoku, Adedamola Titi n and Bello O S 2017Journal of Dispersion Science and Technology, 38(9) 1285.

[20] Langmuir I 1918 J. Am. Chem. Soc. 40 1361.

[21] Freundlich H M F 1906 Uber die adsorption in losungen.Zeitschrift fur Physikalische Chemie (Leipzig) 57A 385.

[22] Dada A O, Olalekan A P, Olatunya A M and Dada O 2012. IOSR J. Appl. Chem. 3 38.

[23] Aharoni C and Ungarish M 1977 J. Chem. Soc., Faraday Trans 73. 456.

[24] Nisaa S 2011 Adsorpsi biru metilena pada kaolin dan nanokomposit kaolin TiO2 serta uji sifat fotokatalis. [skripsi]. (Bogor - FMIPA IPB)

[25] Armaroli T, Simon LJ, Digne M, Montanari T, Bevilacqua M, Valtchev V, Patarin J and Busca G 2006. Appl. Catal A Gen 306 78.

[26] Mohamed M, Fouad O A, Ismail A A and Ibrahim I A 2005 In Materials Letters 59 27.

[27] Somani O G,Anant L Choudhari, Rao B S and Mirajkar S P 2006 Journal of Materials Chemistry and Physics 82(3) 538.

[28] Adamson A.W 1990 Physical Chemistry of Surface 5 th ed (New York. John Willey &. Sons)

[29] Yahya S A, Musa I E, Amjad H E, and Gavin M W (2008). Effect of solution pH, ionic strength, and temperature on adsorption behavior of reactive dyes on activated carbon Dyes Pigm 77 16.

[30] Gercel O, Ozcan A, Ozcan A S, and Gercel H F 2007 Appl. Surf. Sci. 253 843.

[31] Wu F C, Tseng R I, and Jung R S 2001 Water Res. 35 613.

[32] Harni, Rudy M, Iryani A and Affandi H 2013 Pemanfaatan serbuk gergaji kayu jati (tectona grandis l.f.) Sebagai adsorben logam timbal (pb).

[33] Venkata S, Mohan N, Rao C, and Karthikeyan J 2002 J. Hazard. Mater. 90 189.

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Detail Karya Ilmiah Dosen

Ani Iryani, Djoko Hartanto

Judul	:	Textile Dyes Removal by ZSM-5 from Bangka Kaolin
Abstrak	:	Textile Dyes Removal by ZSM-5 from Bangka Kaolin Iryani, A1 and Hartanto, D2 1Chemistry Departement, FMIPA UNPAK Bogor, Indonesia 2Chemistry Departement, FIA ITS Surabaya, Indonesia 2E-mail : djokohar023@gmail.com; djokohar@its.ac.id Abstract. The ZSM-5- adsorption capacity, which is synthesized directly from Bangka kaolin, has been thoroughly to remove the basic dye in a textile waste solution. The Langmuir and Freundlich isotherm models were used to analyze and measure the results of experimental adsorption data from the red adsorption of Congo Red (CR), Auramin (Au), Methylen Blue (MB), Azin (Az), Rodamin B (RB) on ZSM-5 at a temperature of 40 0C. The ZSM-5 adsorption capacity of Bangka kaolin showed dye absorption : Congo Red, Auramin, Methylen Blue, Azin and Rodamin B respectively were 129,157, 134, 205 and 210 mg/g. Therefore, ZM-5 of Bangka kaolin is respectively good adsorbent to remove the textile base dye waste.
Tahun	:	2018	Media Publikasi	:	Jurnal Internasional
Kategori	:	Jurnal	No/Vol/Tahun	:	012011 / 1095 / 2018
ISSN/ISBN	:	1742-6596
PTN/S	:	Universitas Pakuan	Program Studi	:	KIMIA
Bibliography	:	[1] Bagane M and Guiza S 2000 Ann. Chim. Sci. Mater. 25 615. [2] Imamura K, Ikeda E, Nagayasu T, Sakiyama T and Nakanishi K 2002 J. Colloid Interface Sci. 245 50 [3] El-Geundi M 1997 Adsorp. Sci. Technol. 15 777 [4] McKay G 1992 J. Chem. Technol. Biotechnol. 32 759. [5] Dai M 1998 J. Colloid Interface Sci. 198 6. [6] Gemeay A H, El-Sherbiny A S and Zaki A 2002 J. Colloid Interface Sci. 245 116. [7] Abbasi M N and Asl R 2008 J. Hazard. Mater. 153 942. [8] Gupta V.K., Mittal A., Jain R., Mathur M., Sikarwar S., 2007 J. Colloid. Interface Sci. 309 460. [9] Fan L, Zhou Y, Yang W, Chen G, Yang F 2008 Electrochemical degradation of aqueous solution of Amaranth azo dye on ACF under potentiostatic model, Dyes Pigments, 76 440. [10] Zonoozi M.H., Moghaddam M.R.A., Arami M. 2009 Water Sci. Technol. 59 1343. [11] Sachdeva S and Kumar A 2009 Membr J. Sci. 329 2. [12] Tan I A W, Ahmad A L and Hameed B H 2008 J. Hazard. Mater. 154 337. [13] Malik P K and Saha S K 2003 Sep. Purif. Technol. 31 241. [14] Holzheu, S. and Hoffmann, H. 2002 J. Colloid Interface Sci. 245 16 [15] Prasetyoko D, Ayunanda N, Fansuri H and Hartanto D 2012 J. Math. Fund. Sci., 44 A (3) 250. [16] Hartanto D, Saputro O, Utomo WP, Rosyidah A, Sugiarso D, Ersam T, Nur H and Prasetyoko D 2016 Chemistry - An Asian Journal, 28(1) 211. [17] Hartanto D, Yuan LS, Sari SM, Sugiarso D, Murwani IK and Ersam T 2016, Malaysian Journal of Fundamental and Applied Sciences 12 (2) 85 [18] Prasetyoko D, Ayunanda N, Fansuri H, Hartanto D and Ramli Z 2016 Journal of Mathematical and Fundamental Sciences 44 (3) 250. [19] Ojedoku, Adedamola Titi n and Bello O S 2017Journal of Dispersion Science and Technology, 38(9) 1285. [20] Langmuir I 1918 J. Am. Chem. Soc. 40 1361. [21] Freundlich H M F 1906 Uber die adsorption in losungen.Zeitschrift fur Physikalische Chemie (Leipzig) 57A 385. [22] Dada A O, Olalekan A P, Olatunya A M and Dada O 2012. IOSR J. Appl. Chem. 3 38. [23] Aharoni C and Ungarish M 1977 J. Chem. Soc., Faraday Trans 73. 456. [24] Nisaa S 2011 Adsorpsi biru metilena pada kaolin dan nanokomposit kaolin TiO2 serta uji sifat fotokatalis. [skripsi]. (Bogor - FMIPA IPB) [25] Armaroli T, Simon LJ, Digne M, Montanari T, Bevilacqua M, Valtchev V, Patarin J and Busca G 2006. Appl. Catal A Gen 306 78. [26] Mohamed M, Fouad O A, Ismail A A and Ibrahim I A 2005 In Materials Letters 59 27. [27] Somani O G,Anant L Choudhari, Rao B S and Mirajkar S P 2006 Journal of Materials Chemistry and Physics 82(3) 538. [28] Adamson A.W 1990 Physical Chemistry of Surface 5 th ed (New York. John Willey &. Sons) [29] Yahya S A, Musa I E, Amjad H E, and Gavin M W (2008). Effect of solution pH, ionic strength, and temperature on adsorption behavior of reactive dyes on activated carbon Dyes Pigm 77 16. [30] Gercel O, Ozcan A, Ozcan A S, and Gercel H F 2007 Appl. Surf. Sci. 253 843. [31] Wu F C, Tseng R I, and Jung R S 2001 Water Res. 35 613. [32] Harni, Rudy M, Iryani A and Affandi H 2013 Pemanfaatan serbuk gergaji kayu jati (tectona grandis l.f.) Sebagai adsorben logam timbal (pb). [33] Venkata S, Mohan N, Rao C, and Karthikeyan J 2002 J. Hazard. Mater. 90 189.
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