This title appears in the Scientific Report :
2016
Please use the identifier:
http://dx.doi.org/10.1111/gcbb.12346 in citations.
Please use the identifier: http://hdl.handle.net/2128/13370 in citations.
Valorization of Sida ( Sida hermaphrodita ) biomass for multiple energy purposes
Valorization of Sida ( Sida hermaphrodita ) biomass for multiple energy purposes
The performance and biomass yield of the perennial energy plant Sida hermaphrodita (hereafter referred to as Sida) as a feedstock for biogas and solid fuel was evaluated throughout one entire growing period at agricultural field conditions. A Sida plant development code was established to allow comp...
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Personal Name(s): | Jablonowski, Nicolai David (Corresponding author) |
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Kollmann, Tobias / Nabel, Moritz / Damm, Tatjana / Klose, Holger / Müller, Michael / Bläsing, Marc / Seebold, Sören / Krafft, Simone / Kuperjans, Isabel / Dahmen, Markus / Schurr, Ulrich | |
Contributing Institute: |
Pflanzenwissenschaften; IBG-2 |
Published in: | Global change biology / Bioenergy, 9 (2017) 1, S. 202–214 |
Imprint: |
Oxford
Wiley-Blackwell
2017
|
DOI: |
10.1111/gcbb.12346 |
Document Type: |
Journal Article |
Research Program: |
Plant Science |
Link: |
OpenAccess OpenAccess |
Publikationsportal JuSER |
Please use the identifier: http://hdl.handle.net/2128/13370 in citations.
The performance and biomass yield of the perennial energy plant Sida hermaphrodita (hereafter referred to as Sida) as a feedstock for biogas and solid fuel was evaluated throughout one entire growing period at agricultural field conditions. A Sida plant development code was established to allow comparison of the plant growth stages and biomass composition. Four scenarios were evaluated to determine the use of Sida biomass with regard to plant development and harvest time: (i) one harvest for solid fuel only; (ii) one harvest for biogas production only; (iii) one harvest for biogas production, followed by a harvest of the regrown biomass for solid fuel; and (iv) two consecutive harvests for biogas production. To determine Sida's value as a feedstock for combustion, we assessed the caloric value, the ash quality, and melting point with regard to DIN EN ISO norms. The results showed highest total dry biomass yields of max. 25 t ha−1, whereas the highest dry matter of 70% to 80% was obtained at the end of the growing period. Scenario (i) clearly indicated the highest energy recovery, accounting for 439 288 MJ ha−1; the energy recovery of the four scenarios from highest to lowest followed this order: (i) ≫ (iii) ≫ (iv) > (ii). Analysis of the Sida ashes showed a high melting point of >1500 °C, associated with a net calorific value of 16.5–17.2 MJ kg−1. All prerequisites for DIN EN ISO norms were achieved, indicating Sida's advantage as a solid energy carrier without any post-treatment after harvesting. Cell wall analysis of the stems showed a constant lignin content after sampling week 16 (July), whereas cellulose had already reached a plateau in sampling week 4 (April). The results highlight Sida as a promising woody, perennial plant, providing biomass for flexible and multipurpose energy applications. |