Finland, Hungary, Germany, Europe, Austria, Denmark, Italy, Netherlands, Sweden, Switzerland, United Kingdom, Northern Ireland, France

Danish Technological University Updraft Gasifier Plant
DTU, Denmark, September 1, 2009

DTU Updraft Gasifier and Stirling Engine

Today, operation started on Stirling DK's latest installation situated on the campus areas of the Technical University of Denmark (DTU). Approximately 1% of DTU's total power consumption and 2% of its heat consumption will be supplied by the installation.

The plant includes a Stirling engine with an output of 35 kWe of electrical power. The surplus heat from the plant, in the form of hot water, is fed into the district heating system of the DTU campus.

The plant is fuelled by wood chips originationg partly from cuttings from DTU park areas. In this way, the plant is a stand-alone facility that enables DTU to become partly self-sufficient with CO2-neutral power and heat from locally availabel fuel sources.

More information about the project can be found here.

Biomass Engineering UK Ltd Dortmund Site
Sam Heyes, Biomass Engineering Ltd., March 2009

From Biomass Engineering UK a very nice video of their CHP generator in
Dortmund, Germany

http://www.youtube.com/watch?v=l8BUIOmMHe4

"This is a video showing our Dortmund plant running on clean wood. This site is a 500kw CHP If you have any questions or would like further information feel free to email me email me on s.heyes@biomass.uk.com"

Fuel 500 kg.hr 10-20% MC

Power 500 kWe

District Heat 800 KW

Contact:
Sam Heyes
Business Development
Biomass Engineering Ltd
Tel: 01925220338
Mobile: 07974980258
Email: s.heyes@biomass.uk.com
www.Biomass.uk.com

See also:

http://gasifiers.bioenergylists.org/taxonomy/term/45

Characterization of biomass producer gas as fuel for stationary gas engines in combined heat and power production (2MB)
Jesper Ahrenfeldt, Danish Technological University, March 2007

Abstract: The aim of this project has been the characterization of biomass producer gas as a fuel for stationary gas engines in heat and power production. More than 3200 hours of gas engine operation, with producer gas as fuel, has been conducted at the biomass gasification combined heat and power (CHP)demonstration and research plant,named “Viking” at the Technical University of Denmark. The plant and engine have been operated continuously and unmanned. Producer gas properties and contaminations have been investigated. No detectable tar content was observed in the gas that goes to the engine; this was confirmed by three different measuring methods. Likewise, no particles were detected in the gas. Considerable amounts of NH3 were measured in the produced gas.An analysis of engine operation at varying load has been carried out. Standard emissions, load and efficiency have been measured at varying operating conditions ranging from 50% to 90% load. Biomass producer gas is an excellent lean burn engine fuel: Operation of a natural aspirated engine has been achieved for 1.2<λ<2.8 without significant reduction of engine efficiency. Relatively high emission of unburned CO was seen at all operating conditions when compared to the current European regulations for CO emissions. The high CO emission from producer gas engine operation is primarily due to the high content of CO in the fuel and is therefore, like UHC emissions from natural gas engines, a measure of fuel passing unburned through the combustion. NOx emissions are in general not a problem for lean burn producer gas operation, except for producer gas with very high concentrations of NH3. Measurements of the emission of polycyclic aromatic hydrocarbons (PAH)showed that there were no detectable PAH in exhaust gas from the engine when it is operated on producer gas. The emissions of aldehydes and laughter gas were measured to be significantly lower for producer gas operation than for natural gas. Analysis of the combustion process for producer gas operation by applying a heat release model showed a constant low level of cyclic variations for a wide range of λ-values. The absence of extreme combustion cycles characterizes producer gas as a good lean burn fuel and indicates that producer gas may be applied in engines with high compression ratio. The engine heads have been removed several times in order to inspect the internal parts for formation of deposits, wear and corrosion, and no significant built up has been seen. Frequent oil analysis has been conducted and no significant degeneration has been seen.

Published: (ISBN: 87-7475-343-6) , pages: 80, 200712

Gasification of Wood Chip Waste for Domestic Heat and Power - January 2009.
Ken Boak, January 30, 2009

Lister

This is my 1953 6hp Lister diesel Startomatic
generator set installed in the renewable energy
workshop. It supplies heated water and power
to my house. Currently it runs on waste veg oil.

The aim is to run this engine using wood gas
produced from woodchip waste from tree
surgery, plus about 20% veg oil in dual fuel
mode.

Engines have been powered on wood gas for
just over 100 years, with main developments in
Europe and Scandinavia occurring during
wartime fuel shortages in the 1940s.

These pages look at my wood gas project.

First Commercial Heat and Power Plant in Switzerland Based on Wood Gasification
Dasagren/Netpro, March 2007
Wila 450 kWe

Main features:
•450 kWel+ waste heat utilisation.
•IISc-Netprogasifier
•Biomass: 15% moisture content
•Producer gas cleaning system with cyclone separation, quenching, scrubbing and filtering.
•1 Jenbacherengine
•Commissioning started January 2007

Micro Gas Turbine Operation with Biomass Producer Gas
L.P.L.M. Rabou, J.M. Grift, R.E. Conradie, S. Fransen , F. Verhoeff, ECN Nethelrlands, August 2007

ABSTRACT: We report the performance of a micro gas turbine on biomass producer gas and mixtures of biomass producer gas with natural gas. The micro gas turbine delivers full power on gas mixtures with a heating value of at least 15 MJ/Nm3. For gas of lower heating value, the maximum fuel gas flow limits the attainable power. The lower limit for stable operation is about 8 MJ/Nm3. The gross efficiency of the micro gas turbine depends on output power but not on the gas heating value, within our measurement accuracy. Above 70% of full power, emissions of CO and NO are 40 and 10 times lower than those of a gas engine of similar size. At part load below 70% of full power, the micro gas turbine burner switches to a different operating mode which produces higher CO and NO levels, but still significantly below those of a gas engine.

Keywords: biomass conversion, emissions, gas turbines

Contribution to the 15th European Biomass Conference, Berlin, May 2007

Humphrey Pump at Chingford Pump House
GFWhell, July 6,2008

Humphrey Pump

My left hand is resting on the fuel line of the "largest and most efficient" 4 stroke heat engine in the world; there is no waste heat worth mentioning on the power stroke. This item was discussed at the engineering debates held on this very subject.

The explosion was somewhat quenched by the water, giving the addition of steam to help force the water down the play pipe. This principle was demonstrated with a "U" tube pump of similar design, .where the valves were dispensed with and an electric resistance element was suspended inside the top of one of the legs of the "U".
The column of water was made to come in contact with the red hot element, the resulting production of steam caused the column of water to oscillate like a pendulum, the stroke of which could be adjusted by the input of currant to the electric element.

Something like an external heat engine?

Humphrey's early experiments with an 8 inch diameter pump, where efficiencies were observed, included the weighing of the fuel which was "anthracite", of known calorific value, together with the amount of water pumped against a measured head.

These were the factors of the equations giving the efficiency. There is a theoretical amount of work available, trapped in a lb of coal. It will produce a known amount of gas.

These guys were not amateurs; they were not comparing this machine to a steam engine. They were in awe of the results; they did their best to shoot this one down. And failed.

I wish I could get another look at "The Proceedings of the Institute of Mechanical Engineers." 05-06 of the last century. I believe these documents are kept at the British Museum London.

I was shown around the Chingford Pump house by the chief engineer of the Thames Water Authority, to whom, I had written, expressing my enthusiasm for The Humphrey pumps. I got him to take my picture.

GF

See also:
Humphrey Pump at Chingford Pump House
David Fulford and others discuss Humphrey Pumps (2005)
Table LI Results of Humphrey Pump Tests "Table LI gives a summary of results of 30 pump tests made on five Humphrey pumps at Chingford," Handbook of mechanical and electrical cost data By Halbert Powers, Gillette, Richard, Turner Dana, Published 1918
". . .assumptions:. . .
Thermal efficiency of Humphrey pump (overall pumping h.p.) 20%. . .
Thermal efficiency of gas engine (brake h.p.) 24% + pump= 16%
Thermal efficiency of Diesel engine (brake h.p.) 32% + pump = 21%
Thermal efficiency of producer, lignite fuel, 75%. . .
Thermal efficiency of producer, wood fuel 65%. . .

List of the Papers of H.A. Humphrey, The National Archives, UK

King George V Pumping Station and Reservoir,Enfield
Doug Williams (2005) Humphrey pump in South Australia Riverland irrigation Area
River Murray in South Australia
Restoration of a Humphrey Pump to Full Operation
Humphrey Pump

NEW BIO POWER PLANT IN OPERATION
Kari Käräjäoja, Finland, June 2008

Entimos Gasifier Lestijärvi
http://www.entimos.fi/inenglish.htm

http://www.entimos.fi/news.htm

Combined heat and power with local fuel

17.3.2008 Minister Mauri Pekkarinen officially opened on 17th of March 2008 a new type of CHP Bio power plant at Lestijärvi, Finland. The plant has been built by Lestijärvi Wood chip Cooperative. The plant's technology is based on patented Entimos-technology.

*Emission free energy from own district * The fuel for the Lestijärvi power plant comes from local forests. Wood chips are gasified in an Entimos-gasifier and the produced gas is used in an engine/generator set which produces ca. 0,3 MW (net) of electricity and ca.
0,65 MW (net) of heat. The electricity is directed to the national grid and the heat is used in district heating and for fuel drying.

--
Kari Käräjäoja
Finland
http://www.pelletstechnik.at/pellets.html

Commercial Assessment: Advanced Conversion Technology (Gasification) for Biomass Projects
Juniper Consultantcy Services, Ltd., Renewables East - BioRegen, June 2007

See link above or attached file for an assessment of gasification technologies.

Gengas.se
February 2008

See this new gasification site in Sweden hosted by Stig-Erik Werner
http://www.gengas.se