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RESEARCH ARTICLE

Alternative low-cost solid media for scrubbing of hydrogen sulphide from piggery biogas

A. G. Skerman A D , S. Heubeck B , D. J. Batstone C and S. Tait C
+ Author Affiliations
- Author Affiliations

A Department of Agriculture and Fisheries, Toowoomba, QLD 4350.

B National Institute of Water and Atmospheric Research (NIWA), Hamilton, New Zealand 3216.

C The University of Queensland, St Lucia, QLD 4072.

D Corresponding author. Email: alan.skerman@daf.qld.gov.au

Animal Production Science 55(12) 1461-1461 https://doi.org/10.1071/ANv55n12Ab051
Published: 11 November 2015

Australian pig producers are increasingly using biogas from on-farm manure management for shed heating and electricity generation. However, hydrogen sulphide (H2S), a toxic and corrosive gas ingredient in raw piggery biogas, is currently impeding further adoption of biogas technology. To remove H2S, biogas is typically passed through a packed column containing a commercial solid medium with an active ingredient (such as iron) which reacts with and sequesters H2S while allowing the treated biogas to pass to the point of use (Skerman et al. 2012). However, periodic replacement of media (when spent) represents a significant operating cost for pig producers using biogas, consuming as much as 20% of the financial benefit of using the biogas. The aim of this laboratory-scale study, batch H2S sorption/reaction was to evaluate and compare the performance of a commercial scrubbing medium with that of several low-cost, agricultural and industrial by-products.

Experiments involved passing a pre-humidified standard gas (Encore Automation Pty Ltd; WA) with 2,000 ppm H2S in high purity nitrogen, through the various media, suspended on stainless steel mesh, in a PVC pipe canister (internal diameter 29.8 mm). In-line sensors (Alphasense H2S-BE, Great Notley, CM77 7AA; UK), which had been cross-calibrated with standard gases, were used to measure H2S concentration in the treated gas discharged from the canister over time. The media tested in the experiments included cg5® commercial iron-oxide pellets (Clean-Gas, ACP Technologies Inc, USA), and the alternative media: granular steel furnace slag (<5 mm), red soil (krasnozem/red ferrosol, Toowoomba, QLD), commercial compost (Naturegrow – Amgrow Pty Ltd, QLD), composted feedlot manure (Kerwee feedlot, Jondaryan; QLD) and biochar (Green waste 550, Pacific Pyrolysis Pty Ltd, NSW). The alternative media were passed through a 2 mm sieve prior to testing, to remove any coarse fragments.

A measured H2S of 0 ppm indicates that the media had effectively removed all of the H2S in the canister inflow, while H2S >0 ppm (following breakthrough) indicates that a portion of the H2S in the canister inflow had not been absorbed/removed by the media and had been emitted through the canister exit (Fig. 1). The results showed that the cg5® commercial iron-oxide pellets vastly outperformed the alternative media, with a substantially higher H2S loading before breakthrough of H2S occurred. However, the red soil showed noteworthy performance. These results suggested that, because of the lower loading capacity, the alternative media would probably require a significantly larger scrubbing column and more frequent medium replacement, compared to a commercial medium. The red soil medium appeared to warrant further investigation, especially for use as a secondary polishing step to treat lower residual levels of H2S following primary biological scrubbing.


Fig. 1.  Experimental data for: (a) various alternative media, red soil (■), composted feedlot manure (☐), biochar (×), commercial compost (▵), granular slag (ANv55n12Ab051_E1a.gif); and (b) for the commercial media cg5®, showing the measured H2S concentrations in the treated gas exiting the scrubber canister vs cumulative H2S fed into the canister. Note the different extents of scale on the horizontal axes.
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References

Skerman A, Collman G, Ho Sohn J, Pott L (2012) Options for Biogas, RIRDC Publication No. 12/056.


Supported by Pork CRC Limited Australia.