TY - JOUR
T1 - Degradation of isopropyl alcohol using UV and persulfate in a large reactor
AU - Lin, Chia Chang
AU - Tsai, Chi Wei
N1 - Publisher Copyright:
© 2018 Elsevier B.V.
PY - 2019/1/31
Y1 - 2019/1/31
N2 - This investigation concerns the degradation of isopropyl alcohol (IPA) in aqueous solutions using UV and persulfate (PS) in a large reactor, as well as the effects of PS concentration, initial IPA concentration, pH, and added anions on this process. A higher PS concentration was associated with more efficient degradation of IPA. However, an excessive PS concentration limited the degradation of IPA. Moreover, the efficiency of degradation of IPA increased with decreasing initial IPA concentration. SO4 [rad]− was identified by performing quenching studies using specific alcohols. The results thus obtained reveal that SO4 [rad]− was the predominant radical in the UV/PS process at pH 7. The degradation of IPA by the UV/PS process in a large reactor exhibited pseudo-first-order kinetics. The efficiency of degradation of IPA followed the order pH 7 > pH 4 > pH 10. Anions (Cl−, CO3 2–, and HCO3 –) inhibited the degradation of IPA and their inhibitive effects followed the order Cl− > CO3 2– > HCO3 –. At pH 7, a PS concentration of 2.10 g/L, and an initial IPA concentration of 100 mg/L, 100% of IPA was degraded in the absence of anions with an observed degradation rate constant of 0.1890 min−1, as measured after 20 min. Comparison with the heat/PS process demonstrates that the degradation of IPA was improved by the UV/PS process at a low temperature. Accordingly, the proposed method that is based on the UV/PS process is an effective method for degrading IPA in aqueous solutions.
AB - This investigation concerns the degradation of isopropyl alcohol (IPA) in aqueous solutions using UV and persulfate (PS) in a large reactor, as well as the effects of PS concentration, initial IPA concentration, pH, and added anions on this process. A higher PS concentration was associated with more efficient degradation of IPA. However, an excessive PS concentration limited the degradation of IPA. Moreover, the efficiency of degradation of IPA increased with decreasing initial IPA concentration. SO4 [rad]− was identified by performing quenching studies using specific alcohols. The results thus obtained reveal that SO4 [rad]− was the predominant radical in the UV/PS process at pH 7. The degradation of IPA by the UV/PS process in a large reactor exhibited pseudo-first-order kinetics. The efficiency of degradation of IPA followed the order pH 7 > pH 4 > pH 10. Anions (Cl−, CO3 2–, and HCO3 –) inhibited the degradation of IPA and their inhibitive effects followed the order Cl− > CO3 2– > HCO3 –. At pH 7, a PS concentration of 2.10 g/L, and an initial IPA concentration of 100 mg/L, 100% of IPA was degraded in the absence of anions with an observed degradation rate constant of 0.1890 min−1, as measured after 20 min. Comparison with the heat/PS process demonstrates that the degradation of IPA was improved by the UV/PS process at a low temperature. Accordingly, the proposed method that is based on the UV/PS process is an effective method for degrading IPA in aqueous solutions.
KW - Degradation
KW - Isopropyl alcohol
KW - Persulfate
KW - UV
UR - http://www.scopus.com/inward/record.url?scp=85049795367&partnerID=8YFLogxK
U2 - 10.1016/j.seppur.2018.06.068
DO - 10.1016/j.seppur.2018.06.068
M3 - 文章
AN - SCOPUS:85049795367
SN - 1383-5866
VL - 209
SP - 88
EP - 93
JO - Separation and Purification Technology
JF - Separation and Purification Technology
ER -