Top

Biomass Conversion and Biorefinery

Published in:

22-03-2017 | Original Article

Influence of wood chip quality on emission behaviour in small-scale wood chip boilers

Authors: Claudia Schön, Daniel Kuptz, Robert Mack, Volker Zelinski, Achim Loewen, Hans Hartmann

Published in: Biomass Conversion and Biorefinery | Issue 1/2019

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

The introduction of wood chips into the market for small-scale heating appliances of below 100 kW has become more challenging due to stricter regulations on emission levels for carbon monoxide and particle emission, e.g. in Germany. Therefore, it is important to identify high wood chip qualities that are suitable for failure-free and low-emission combustion. In this investigation, several wood chip assortments produced from stem wood and forest residues were analysed and combusted in up to two different wood chip boilers with a nominal heat capacity of 50 and 99 kW at full load. Some combustion tests were performed at part load (i.e. 30% heat output). Throughout experiments, the emission behaviour was measured (CO, NO_X and total particulate matter (TPM)). In total, seven different wood chip assortments were tested in the large boiler, whereas ten wood chip assortments were combusted in the smaller furnace. Wood chips from stem wood are characterized by lower ash contents (0.27–1.05 w%, d.b.), lower nitrogen contents (0.04–0.14 w%, d.b.) and lower aerosol forming elements (379–1075 mg/kg, d.b.) compared to forest residues (A = 0.58–2.05 w%¸ N = 0.13–0.32 w%, aerosols = 728–2199 mg/kg, d.b.). Combustion of stem wood caused lower emissions compared to forest residues at full-load operation. Overall, part-load operation caused higher CO and particle emissions. In addition, increases of fine woody particles lead to increases in CO emissions. The influence of moisture content was more pronounced especially for CO emissions.

previous article Influence of kaolinite on the PM emissions from small-scale combustion

next article Evaluation of combined screening and drying steps for the improvement of the fuel quality of forest residue wood chips—results from six case studies

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Wilnhammer M, Wittkiopf S, Richter K, Weber-Blaschke G (2017) The impact of a new emission control act on particulate matter emissions from residential wood energy use in Bavaria, Germany. J Clean Prod 145:134–141CrossRef

Bundesrepublik Deutschland (2010) Erste Verordnung zur Durchführung des Bundes-Immisionsschutzgesetztes (Verordnung über kleine und mittlere Feuerungsanlagen -1. BImSchV). Deutscher Bundestag, Drucksache 17/74, vom 25.11.2009, In force: 22.03.2010

Kaltschmitt M, Hartmann H, Hofbauer H (2016) Energie aus Biomasse–Grundlagen, Techniken, Verfahren. Springer, ISBN 978-3-662-47438-9

Rackl M, Günthner WA (2016) Experimental investigation on the influence of different grades of wood chips on screw feeding performances. Biomass & Bioenergy 88:106–115CrossRef

Hinterreiter H, Hartmann H, Turowski P (2012) Method for determining bridging properties of biomass fuels—experimental and model approach. Biomass Conversion and Biorefinery 2(2):109–121CrossRef

Morán JC, Miguez JL, Porteiro J, Patino D, Granada E (2015) Low-quality fuels for small-scale combustion boiler: an experimental study. Energy Fuel 29:3064–3081CrossRef

Sommersacher P, Brunner T, Obernberger I (2012) Fuel indexes: a novel method for the evaluation of relevant combustion properties of new biomass fuels. Energy Fuel 26(1):380–390CrossRef

Brunner T, Sommersacher P, Obernberger I (2011) Fuel index—a novel method for the evaluation of relevant combustion properties of new biomass fuels. In: ETA renewable energies (ed) Proceedings 19th European Biomass Conference and Exhibition–From Research to Industry and Markets, Berlin, Germany, 06–10 June 2011. Florence, Italy, pp 1351–1357

Obernberger I, Brunner T (2015) Advanced characterization methods for solid biomass fuels. Report of the IEA Bioenergy Task 32 project, Graz

10.

Stubenberger G, Scharler R, Zahirovic S, Obernberger I (2008) Experimental investigation of nitrogen species release from different solid biomass fuels as a basis for release models. Fuel 87:793–806CrossRef

11.

Glarborg P, Jensen AD, Johnsson JE (2003) Fuel nitrogen conversion in solid fuel fired systems. Prog Energy Combust Sci 29:89–113CrossRef

12.

Liu H, Chaney J, Li J, Sun C (2013) Control of NOX emissions of a domestic/small-scale biomass pellet boiler by air staging. Fuel 103:792–798CrossRef

13.

Lamberg H, Tissari J, Jokiniemi J, Sippula O (2013) Fine particle and gaseous emissions from a small-scale boiler fueled by pellets of various raw materials. Energy Fuel 27:7044–7053CrossRef

14.

Obernberger I, Brunner T, Bärnthaler G (2007) Fine particulate emissions from modern Austrian small-scale biomass combustion plants. 15th European Biomass Conference & Exhibition, Berlin, Germany, pp 1546–1557

15.

Schmidl C, Luisser M, Padouvas E, Lasselberger L, Rzaca M, Ramirez-Santa Cruz C, Handler M, Peng G, Bauer H, Puxbaum H (2011) Particulate and gaseous emissions from manually and automatically fired small scale combustion systems. Atmos Environ 45:7443–7454CrossRef

16.

Leskinen J, Tissari J, Uski O, Viren A, Torvela T, Kaivosoja T, Lamberg H, Nuutinen I, Kettunen T, Joutsensaari J, Jalava PI, Sippula O, Hirvonen M-R, Jokiniemi J (2014) Fine particle emissions in three different combustion conditions of a wood chip-fired appliance—particulate physico-chemical properties and induced cell death. Atmospheric Environment 86:129–139CrossRef

17.

Baumgartner T, Lermer A, Schön C, Kuptz D, Hartmann H (2015) Brennstoffqualität von Holzpellets–Europaweites Holzpelletscreening mit Fokus auf den deutschen Markt. Berichte aus dem TFZ, Nr. 43. Straubing. ISSN 1614–1008

18.

Kuptz D, Dietz E, Blum U, Schulmeyer F, Hartmann H, Borchert H (2016) Qualität von Holzhackschnitzeln in Bayern–Gehalte ausgewählter Elemente, Heizwert und Aschegehalt. Berichte aus dem TFZ, Nr. 46. Straubing. ISSN 1614–1008

19.

AshMelT (2015) Development of a practical and reliable ash melting test for biomass fuels, in particular for wood pellets. Final report, 2015 (yet unpublished)

20.

Buchmayr M, Gruber J, Hargassner M, Hochenauer C (2015) Experimental investigation of the primary combustion zone during staged combustion of wood-chips in a commercial small-scale boiler. Biomass & Bioenergy 81:356–363CrossRef

21.

DIN EN ISO 18134-2 (2015) Solid biofuels—determination of moisture content—oven dry method—part 2: total moisture—simplified method. Berlin: Beuth 2015

22.

DIN EN ISO 17828 (2015) Solid biofuels—determination of bulk density. Berlin: Beuth 2015

23.

DIN EN 14778 (2011) Solid biofuels—sampling. Berlin: Beuth 2011

24.

DIN EN 14780 (2011) Solid biofuels—sample preparation. Berlin: Beuth 2011

25.

DIN EN ISO 17827-1 (2016) Solid biofuels—determination of particle size distribution for uncompressed fuels—part 1: oscillating screen method using sieves with apertures of 3,15 mm and above. Berlin: Beuth 2016

26.

DIN EN 14918 (2011) Solid biofuels—determination of calorific value. Berlin: Beuth 2011

27.

DIN EN ISO 18122 (2016) Solid biofuels—determination of ash content. Berlin: Beuth 2016

28.

DIN EN 15104 (2011) Solid biofuels—determination of total content of carbon, hydrogen and nitrogen. Berlin: Beuth 2011

29.

DIN EN 152889 (2011) Solid biofuels—determination of total content of sulfur and chlorine. Berlin: Beuth 2011

30.

DIN EN ISO 16967 (2016) Solid biofuels—determination of major elements—Al, Ca, Fe, Mg, P, K, Si, Na and Ti. Berlin: Beuth 2016

31.

DIN EN ISO 16968 (2016) Solid biofuels—determination of minor elements. Berlin: Beuth 2016

32.

Deutsches Institut für Normung e.V. (DIN) (2014) DIN EN ISO 17225-4. Solid biofuels—fuel specifications and classes—part 4: graded wood chips. Berlin: Beuth

33.

Deutsches Institut für Normung e.V. (DIN) (2014) DIN EN ISO 17225–2. Solid biofuels–fuel specifications and classes—part 2: wood pellets. Berlin: Beuth

34.

DIN EN 303-5 (2012) Heating boilers—part 5: heating boilers for solid fuels, manually and automatically stoked, nominal heat output of up to 500 kW—terminology, requirements, testing and marking. Berlin: Beuth 2012

35.

VDI 2066, Part 1 (2016) Particulate matter measurement, Dust measurement in flowing gases – Gravimetric determination of dust load. Beuth, Berlin 2006

36.

Kuptz D, Hartmann H (2015) The effect of raw material and machine setting on chipping performance and fuel quality—a German case study. Int J For Eng 26(1):60–70

37.

Kuptz D, Mack R, Rist E, Schön C, Hartmann H (2016) Wirkung der Aufbereitungskesse auf das Verbrennungsverhalten in Holzhackschnitzelfeuerungen. 14. Holzenergie-Symposium–Verwendungsoptionen und neue Entwicklungen. 16. September 2016 in Zurich, Switzerland

38.

Serrano C, Portero H, Monedero E (2013) Pine chips combustion in a 50 kW domestic biomass boiler. Fuel 111:564–573CrossRef

39.

Zeng T, Weller N, Pollex A, Lenz V (2016) Blended biomass pellets as fuel for small scale combustion appliances: influence on gaseous and total particulate matter emissions and applicability of fuel indices. Fuel 184:689–700CrossRef

Title: Influence of wood chip quality on emission behaviour in small-scale wood chip boilers
Authors: Claudia Schön
Daniel Kuptz
Robert Mack
Volker Zelinski
Achim Loewen
Hans Hartmann
Publication date: 22-03-2017
Publisher: Springer Berlin Heidelberg
Published in: Biomass Conversion and Biorefinery / Issue 1/2019
Print ISSN: 2190-6815
Electronic ISSN: 2190-6823
DOI: https://doi.org/10.1007/s13399-017-0249-7

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 1/2019

Evaluation of combined screening and drying steps for the improvement of the fuel quality of forest residue wood chips—results from six case studies

Modelling of particle size effect on Equivalence Ratio requirement for wood combustion in fixed beds

Special issue: particulate matter emissions from boilers for solid biofuels—influencing parameters and impacts

Biological effects of particulate matter emissions from residential pellet boilers in bacterial assays: influence of an electrostatic precipitation

Effect of additives on thermochemical conversion of solid biofuel blends from wheat straw, corn stover, and corn cob

From the air to the water phase: implication for toxicity testing of combustion-derived particles