Open Access
- false
Adsorptive separation of C2/C3/C4-hydrocarbons on a flexible Cu-MOF: The influence of temperature, chain length and bonding character
Artikel
Überblick
Peer Reviewed
- true
Abstract
- In this work, manometrically and gravimetrically measured adsorption isotherms on the flexible copper MOF material Cu4(μ4-O)(μ2-OH)2(Me2trzpba)4 (1) are presented and discussed. This includes nitrogen (N2) adsorption at 77.3 K, carbon dioxide (CO2) adsorption at 298.15 K (Supplementary Material) and the adsorption of the five hydrocarbons ethane, ethene, propane, n-butane and 1-butene at 273.15 K, 298.15 K and 323.15 K. Up to the saturation pressure, all isotherms show distinct inflection characteristics, that are relatable to structural transitions of the flexible solid. The number of inflections and the relative pressure at which the inflections manifest depend on the characteristics of the relevant adsorptive and on temperature. For the hydrocarbon adsorption isotherms, we studied the influence of i) measurement temperature, ii) bonding character, and iii) the chain length of the alkanes and alkenes. In addition, the origin of decreasing equilibrium pressure with increasing adsorbed volume in the nitrogen adsorption isotherms on the flexible MOF material 1 is discussed. Calculations using the Ideal Adsorbed Solution Theory (IAST), based on the unary isotherm fits, along with transient breakthrough simulations, are used to demonstrate that Cu-MOF 1 has the potential to separate 5-component ethane/ethene/propane/n-butane/1-butene mixtures to yield three different fractions with increasing carbon numbers. [Display omitted] •One-step and two-step adsorption isotherms were gravimetrically measured.•Steps in hydrocarbon isotherms are related to structural transitions of the Cu-MOF.•The olefin character of adsorptives supports structural transitions of the Cu-MOF.•The Cu-MOF has the potential to separate C2/C3/C4 hydrocarbon mixtures.
authors
Veröffentlichungszeitpunkt
- April 1, 2016