Kadlez, David

Benedikt, Florian

Bartik, Alexander

Müller, Stefan

Hofbauer, Hermann

Karel, Thomas

Binder, Matthias

Huber, Miriam

Egger, Anna

Hochstöger, Daniel

Fürsatz, Katharina

Kuba, Matthias

2024-02-05T09:45:50Z

2024-02-05T09:45:50Z

2023-01-19

<div class="csl-bib-body"> <div class="csl-entry">Kadlez, D., Benedikt, F., Bartik, A., Müller, S., Hofbauer, H., Karel, T., Binder, M., Huber, M., Egger, A., Hochstöger, D., Fürsatz, K., &#38; Kuba, M. (2023, January 19). <i>First results of a newly erected 1 MW advanced DFB steam gasification demonstration plant</i> [Conference Presentation]. 7. Mitteleuropäische Biomassekonferenz CEBC 2023, Graz, Austria. http://hdl.handle.net/20.500.12708/193354</div> </div>

http://hdl.handle.net/20.500.12708/193354

The advanced dual fluidized bed (DFB) gasification technology allows to generate medium-calorific product gas from various feedstock. Thereby, biogenic residues, municipal and industrial wastes e.g. sewage sludge or rejects from pulp and paper industry can be utilized. The varying chemical properties of these feedstock pose a challenge not only to the DFB reactor system, but also demand improved gas cleaning of the generated product gas. Downstream gas cleaning and a Fischer-Tropsch plant converts the product gas into valuable products such as Fischer-Tropsch diesel or waxes. Over the last years, extensive research was conducted and over 50 fuels were tested on daily operation test runs in a 100 kW advanced DFB pilot plant at TU Wien. Based on the gained experience, a 1 MW demonstration plant was designed, built and commissioned, thus allowing the experimental gasification of various feedstock on a close-to-industrial scale. Investigating the feasibility of upscaling the technology with regards to product gas quality and operation parameters is the focus of the current test runs. In order to validate and verify the data from these campaigns, a process flow simulation using the software IPSEpro is conducted. This allows calculating otherwise immeasurable values such as mass and energy balances, heat losses and conversion efficiencies of chemical feedstock power into product gas power. This paper presents the results from these simulations to provide a comparison of different operating points for the feedstock wood chips Different temperatures, fuel loads, steam-to-fuel ratios and circulation rates, determine these operation points. During test campaigns, wood chips were used for gasification. Input data for the simulation model consists of the plants distributed control system, fuel and bed material analysis, online gas analytics, and analytical results of wet-chemical tar, NH3, H2S, HCl, sampling. Key performance indicators for the demonstration plant include e.g. cold gas efficiency, water conversion, and product gas yield. Additionally, by the use of the simulation results, the fluidization regimes in the reactor system can be determined. Results from the simulation allow drawing meaningful comparisons between design parameters, derived from 100 kW pilot plant operation and the upscaled 1 MW demonstration plant. This gives the opportunity to generate design values for industrial DFB gasification plants in the future.

FFG - Österr. Forschungsförderungs- gesellschaft mbH

en

biomass and waste gasification

mass and energy balances

scale-up

synthesis gas

First results of a newly erected 1 MW advanced DFB steam gasification demonstration plant

Presentation

Vortrag

BEST - Bioenergy and Sustainable Technologies (Austria), Austria

BEST - Bioenergy and Sustainable Technologies (Austria), Austria

BEST - Bioenergy and Sustainable Technologies (Austria), Austria

BEST - Bioenergy and Sustainable Technologies (Austria), Austria

C-20-072-10-1

Conference Presentation

invited

Project 2.1 Waste2Value: Dual fluidized bed steam pilot gasifier for difficult feedstocks

Vienna Scientific Cluster

C6

E3

Modeling and Simulation

Climate Neutral, Renewable and Conventional Energy Supply Systems

50

50

E166-07-2 - Forschungsgruppe Industrieanlagendesign und Anwendung digitaler Methoden

0000-0002-8600-1375

0000-0001-9350-546X

0000-0001-8878-429X

0000-0002-4338-5727

0000-0003-3863-5186

7. Mitteleuropäische Biomassekonferenz CEBC 2023

18-01-2023

20-01-2023

On Site

Event for scientific audience

Graz

AT

Österreichischer Biomasse-Verband

Kadlez, David

Chemische Verfahrenstechnik

Biologie

Industrielle Biotechnologie

2040

1060

2090

50

35

15

en

none

Publications

conference paper not in proceedings

http://purl.org/coar/resource_type/c_18cp

no Fulltext

E166-07-2 - Forschungsgruppe Industrieanlagendesign und Anwendung digitaler Methoden

E166 - Institut für Verfahrenstechnik, Umwelttechnik und technische Biowissenschaften

E166-07-2 - Forschungsgruppe Industrieanlagendesign und Anwendung digitaler Methoden

E166-07 - Forschungsbereich Brennstoff- und Energiesystemtechnik

E166 - Institut für Verfahrenstechnik, Umwelttechnik und technische Biowissenschaften

BEST - Bioenergy and Sustainable Technologies (Austria)

E166-07-2 - Forschungsgruppe Industrieanlagendesign und Anwendung digitaler Methoden

E166 - Institut für Verfahrenstechnik, Umwelttechnik und technische Biowissenschaften

0000-0002-4212-0620

0000-0002-8600-1375

0000-0001-9350-546X

0000-0001-8878-429X

0000-0002-4338-5727

0000-0003-3863-5186

E166-07 - Forschungsbereich Brennstoff- und Energiesystemtechnik

E150 - Fakultät für Technische Chemie

E166-07 - Forschungsbereich Brennstoff- und Energiesystemtechnik

E166 - Institut für Verfahrenstechnik, Umwelttechnik und technische Biowissenschaften

E150 - Fakultät für Technische Chemie

E166-07 - Forschungsbereich Brennstoff- und Energiesystemtechnik

E150 - Fakultät für Technische Chemie

FFG - Österr. Forschungsförderungs- gesellschaft mbH

C-20-072-10-1