'School ofAgriculture and Biology, Key Laboratory of Urban Agriculture (South), Ministry of Agriculture, Shanghai Jiao Tong University, Shanghai, PR China.
J Air Waste Manag Assoc. 2012 Aug;62(8):873-9. doi: 10.1080/10962247.2012.686441.
The characteristics and mechanisms of hydrogen sulfide (H2S) adsorption on a biochar through pyrolysis at various temperatures (100 to 500 degrees C) were investigated. The biochar used in the current study was derived from the camphor tree (Cinnamomum camphora). The samples were ground and sieved to produceparticle sizes of 0.4 mm to 1.25 mm, 0.3 mm to 0.4 mm, and <0.3 mm. The H2S breakthrough capacity was measured using a laboratory-designed test. The surface properties of the biochar were characterized using pH and Fourier-transform infrared spectroscopy (FTIR) analysis. The results obtained demonstrate that all camphor-derived biochars were effective in H2S sorption. Certain threshold ranges ofthepyrolysis temperature and surfacepH were observed, which, when exceeded, have dramatic effects on the H2S adsorption capacity. The sorption capacity ranged from 1.2 mg/g to 121.4 mg/g. The biochar with 0.3 mm to 0.4 mm particle size possesses a maximum sorption capacity at 400 degrees C. The pH and FTIR analysis results showed that carboxylic and hydroxide radical groups were responsible for H2S sorption. These observations will be helpful in designing biochar as engineered sorbents for the removal of H2S.
研究了通过在 100 至 500°C 不同温度下热解将硫化氢(H2S)吸附在生物炭上的特性和机理。本研究中使用的生物炭是由樟木(Cinnamomum camphora)制成的。将样品研磨并过筛,得到粒径为 0.4 毫米至 1.25 毫米、0.3 毫米至 0.4 毫米和<0.3 毫米的颗粒。使用实验室设计的测试测量了 H2S 突破容量。使用 pH 值和傅里叶变换红外光谱(FTIR)分析对生物炭的表面性质进行了表征。结果表明,所有樟木衍生的生物炭都能有效吸附 H2S。观察到一定的热解温度和表面 pH 值阈值范围,超过这些范围会对 H2S 吸附容量产生显著影响。吸附容量范围为 1.2mg/g 至 121.4mg/g。粒径为 0.3 毫米至 0.4 毫米的生物炭在 400°C 时具有最大的吸附容量。pH 值和 FTIR 分析结果表明,羧酸根和氢氧根自由基是 H2S 吸附的原因。这些观察结果将有助于设计生物炭作为工程吸附剂以去除 H2S。