Telah dipreparasi dua macam adsorben yaitu adsorben kitin (C) dan adsorben asam humat terimobilisasi pada kitin (HAC) untuk adsorpsi Ag(S2O3)2 3- dalam limbah fotografi. Beberapa parameter adsorpsi seperti laju, energi, kapasitas dan mekanisme adsorpsi serta kondisi keasaman optimum adsorpsi ditentukan. Desorpsi terhadap Ag(S2O3)2 3- pada adsorben selanjutnya dilakukan secara sekuensial menggunakan beberapa pereaksi untuk mengetahui mekanisme adsorpsi. Penelitian diawali dengan isolasi asam humat dari tanah gambut dan kitin dari cangkang kepiting, imobilisasi asam humat pada kitin dan karakterisasi adsorben C dan HAC. Kondisi optimum adsorpsi dipelajari melalui interaksi Ag(S2O3)2 3- dalam limbah sintetis dengan adsorben pada variasi pH dari 2 sampai 10. Adapun laju adsorpsi dipelajari melalui interaksi Ag(S2O3)2 3- dalam limbah sintetis dengan adsorben pada variasi waktu dari 2 sampai 120 menit, sedangkan energi dan kapasitas adsorpsi dipelajari melalui interaksi Ag(S2O3)2 3- dalam limbah sintetis dengan adsorben pada variasi konsentrasi awal dari 2 sampai 75 ppm. Desorpsi dilakukan menggunakan H2O, Na2EDTA 0,1 M, KSCN 0,5 M dan KOH 1 M secara berurutan. Adsorpsi Ag(S2O3)2 3- dalam limbah fotografi pada adsorben dipelajari dengan menggunakan kondisi optimum yang diperoleh pada limbah sintetis. Hasil penelitian menunjukkan bahwa pH 2 merupakan kondisi optimum adsorpsi Ag(S2O3)2 3- dalam limbah sintetis pada adsorben C dan HAC. Adsorpsi Ag(S2O3)2 3- dalam limbah sintetis merupakan adsorpsi kimia dengan energi adsorpsi untuk adsorben C dan HAC berturut-turut sebesar 22,74 dan 23,30 kJ/mol. Adsorpsi Ag(S2O3)2 3- dalam limbah sintetis pada adsorben C berlangsung lebih cepat dibandingkan pada adsorben HAC dengan konstanta laju untuk adsorben C dan HAC masing-masing 73 x 10-4 dan 46 x 10-4 menit-1. Kapasitas adsorpsi Ag(S2O3)2 3- pada adsorben C dan HAC berturut-turut adalah 2,107 x 10-4 dan 1,818 x 10-4 mol/g. Jumlah Ag(S2O3)2 3- dalam limbah fotografi yang teradsorpsi pada adsorben C dan HAC masing-masing 13,52 dan 12,47 mg/L. Adapun pembentukan ikatan hidrogen dan pertukaran ion merupakan mekanisme adsorpsi Ag(S2O3)2 3- pada adsorben yang dominan.

Two different types of adsorbents have been prepared for the adsorption of Ag(S2O3)2 3- in photography wastewater. The adsorbents were chitin (C) and immobilized humic acid on chitin (HAC). Several adsorption parameters such as rate, energy, capacity and mechanism also optimum acidity condition of adsorption were determined. Desorption of Ag(S2O3)2 3- from adsorbent was then conducted sequentially using some reagents in order to elucidate the mechanism of adsorption. This work was started with isolation of humic acid from peat soil and chitin from crab shell, immobilization of humic acid on chitin, and characterization of adsorbents of C and HAC. Optimum condition was studied by interacting the adsorbents with Ag(S2O3)2 3- in a synthetic solution on various of pH from 2 to 10. Adsorption rate was studied by interacting the adsorbent with Ag(S2O3)2 3- in the synthetic solution on various time from 2 to 120 minutes. The determination of the energy and the capacity of adsorption were studied by interacting the adsorbent with Ag(S2O3)2 3- on various initial concentration from 2 to 75 ppm. Moreover, the mechanism of adsorption was studied by applying a sequential desorption using H2O, Na2EDTA 0.1 M, KSCN 0.5 M, and KOH 1 M. The adsorption of Ag(S2O3)2 3- in photography wastewater on C and on HAC were studied at the same condition as obtained for the synthetic solution. The result showed that pH 2 was the optimum adsorption condition for Ag(S2O3)2 3- in the synthetic solution on both C and HAC adsorbents. Ag(S2O3)2 3- in the synthetic solution was chemically adsorbed on C and on HAC, involving energy adsorption of 22.74–23.30 kJ/mole, respectively. Adsorption of Ag(S2O3)2 3- on C was faster than that on HAC with the rate constants for adsorbent C and HAC were 73 x 10-4 dan 46 x 10-4 minute-1, respectively. Adsorption capacity of Ag(S2O3)2 3- on C and on HAC were 2.107 x 10-4 and 1.818 x 10-4 mole/g, respectively. The amount of Ag(S2O3)2 3- in photography wastewater that was adsorbed on C and on HAC were 13.52 and 12.47 mg/L, respectively.The hydrogen bonding and ion exchange were the dominant mechanism of adsorption.

Kata Kunci : Adsorpsi dan Desorpsi Ag(s2O3)2 Pangkat 3,Adsorben Kitin,Asam Humat, Photography wastewater, Ag(S2O3)2 3-, adsorption, chitin, immobilization, humic acid.