Details

Autor(en) / Beteiligte

• Alonso-Vicario, A
• Ochoa-Gomez, Jose R
• Gil-Rio, S
• Gomez-Jimenez-Aberasturi, O
• Ramirez-Lopez, CA
• Torrecilla-Soria, J
• Dominguez, A

Titel

Purification and upgrading of biogas by pressure swing adsorption on synthetic and natural zeolites

Ist Teil von

• Microporous and mesoporous materials, 2010-10, Vol.134 (1), p.100-107

Ort / Verlag

San Diego, CA: Elsevier Inc

Erscheinungsjahr

2010

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• The cleaning (H 2S removal) and upgrading (CO 2/CH 4 ratio adjustment for syngas synthesis) of biogas by pressure swing adsorption (PSA) with thermal desorption using two synthetic molecular sieves (5A and 13X) and a natural zeolite (Clinoptilolite) as adsorbent materials have been studied. Prior to use, zeolites were activated according to literature methods and supplier recommendations in order to dispose of adsorbed gases and soluble impurities which may compete with H 2S and CO 2 for the active sites of the zeolites. The behaviours of the zeolites have been compared by using three basic parameters: selectivity, capacity and regenerability. The experimental results indicate that Clinoptilolite is the best material choice because it is simultaneously suitable both for the purification and upgrading of biogas. For a CH 4/CO 2/H 2S biogas molar composition of 59.95/39.95/0.10, the breakthrough capacity of Clinoptilolite at 1 cm/s biogas feeding velocity, 7 bar and 25 °C is 1.39 mgH 2S/g Clinoptilolite, twice the adsorption capacity of the synthetic molecular sieves subjected to study. The high CO 2 adsorption capacity observed (173.9 mg CO 2/g Clinoptilolite) makes the adjusting of CH 4/CO 2 ratio in the biogas possible. Additionally, Clinoptilolite is completely regenerable and stable through several adsorption–desorption cycles which, together with its abundance and low cost, make this process highly attractive from an economical standpoint. Finally, this study demonstrates the importance of the selection of the optimal activation method of natural zeolites in order to offset variable composition and low purity often responsible for poorer separation performance compared to synthetic zeolites.