GASIFICATION AND HOT GAS CONDITIONING - … AND HOT GAS CONDITIONING ... University of Timisoara...
Transcript of GASIFICATION AND HOT GAS CONDITIONING - … AND HOT GAS CONDITIONING ... University of Timisoara...
SUMMARY OF RESEARCH AND TECHNOLOGYDEVELOPMENT EXPERIENCE ON
GASIFICATION AND HOT GAS CONDITIONINGUNIQUE (7PQ-ENERGY-2007/2010-211517)
ANDUNIfHY (7FP-FCH-JU-2012/2015-299732)
PROJECTS
Seminario Energia e idrogenoLe esperienze e le strategie europee
Il nuovo bando energia del 7PQ - Le iniziative in Italia12 luglio 2012
Prof. Pier Ugo Foscolo (Univ. of Aquila)Res. Enrico Bocci (Univ. of Rome)
An European project, supported by the EuropeanCommission’s 7th Framework Programme
University ofL’Aquila
Pall FiltersystemsGmbH WerkSchumacher
Université Louis Pasteur,Strasbourg
Forschungszentrum JülichGmbH
ViennaUniversityof Technology
“Politehnica”University of Timisoara
InstytutEnergetyki
ENEA
BiomasseKraftwerk Güssing
GmbH & Co KG
Consejo Superior deInvestigacionesCientíficas
Unique partners
10 Partners:2 Industrial companies,4 Universities4 Research organisations
7 Member States:Austria, France, Germany,Italy, Poland, Romania andSpain
3 years duration:Project start on January 1st,2008
Budget €3.7M:€2.7M EC Grant€1.0M own Partners funding
FP7 EU funded project
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
Source: T. Pröll, April 2004
State of the art of gasificationthe Güssing plant
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
• The use of a catalytic filter instead of a filterfollowed by a catalytic bed or a monolith followedby a filter saves equipment;
• Housing the whole gas conditioning system in thegasifier reduces thermal losses
Steam/Gas
Biomass
Ashes and exhaustsolid inventory
CleanSyngas
In-bed gasconditioning
Catalytically active filter elements intothe freeboard of the gasifier to obtaintar- and particle-free syngas
Catalytic primary reduction ofheavy hydrocarbons
Integration in the bed inventory of sorbent orsorbent mixtures for a drastic elimination ofH2S and other detrimental trace elements
The Unique concept
N2 Back-pulsing
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
Compact gasifier and gas cleaning system
Candle label Specifications
SiC_A
DIASHUMALITH - Silicon -Carbide porousstructure with mullite outer membrane,impregnated with Ni supported on MgO-Al2O3
SiC_B
As above, additionally integrated with fixed bed ofNi grains filled into the hollow-cylindrical spacebetween the filter element and a porous inner tube
Al2O3_A
Al2O3 based grain-sintered filter element coatedwith a mullite outer-membrane, impregnated withNi supported on MgO-Al2O3
Al2O3_BAs above, additionally integrated with a Niactivated Al2O3 based hollow-cylindrical monolith
PALL catalytic candles tested
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
Biomass feed rate [g/min] 6-8
Steam /biomass ratio 0.8-1.2
Bed Temp. [°C] 800-830
Reactor outlet Temp. [°C] 750-800a b
Gas yeld[Nm3(dry N2free)/kg daf]
1 2.1
H2 [%vol (dry gas, N2free)] 39 56
CH4 [%vol (dry gas, N2free)] 10 2
Water conversion [%] 16 42
TAR content[g/Nm3(dry N2free)]
3.7 0.15
a) Reference values – no filter candle; b) best results with Al2O3_B (20 hours on test)
UNIVAQ test conditions
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
Güssing plant tests
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
Comparison of hot and cold gas cleaning systems
26 hours of stable filtration were achieved. The performance of the filter candletoward tar and solid separation is a promising option for hot gas cleaning. Theoverall technical feasibility is not yet proven and the long term behaviour remains anoutstanding issue.
CIRPSUniversity ofRome andL’Aquila
Pall FiltersystemsGmbH WerkSchumacherEPCEngineering, Procurement& Construction
Université Louis Pasteur,Strasbourg
“Engineering forsustainablegrowth”
ALH2EAir Liquide
ENEA
Unifhy partners
7 Partners:4 Industrial companies,2 Universities1 Research organisations
4 Member States:France, Germany, Italy andNetherlands
3 years duration:Project start on September1st, 2012
Budget €3.3M:€2.2M EC Grant€1.1M own Partners funding
FP7-JTI-FCH-EU fundedproject
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
The Unifhy concept
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
The overall scope of UNIfHY is the integration of plant components of provenperformance and reliability and well established processes (UNIQUE coupled
gasification and hot gas cleaning and conditioning system, Water-Gas Shift, WGS,system and Pressure Swing Adsorption, PSA, system) to obtain a continuous process
for pure hydrogen production from biomass.
The Unifhy advantages
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
1. UNIfHY uses hot gas conditioning systems including catalysts, sorbentsand ceramic filters and foams in order to remove tar, contaminants,particulates and increase the hydrogen production without coolingsteps, catalyst clogging, and loss of gas chemical and thermal energy,guaranteeing the system reliability.
2. The integration of catalytic filter candles in the freeboard reducesdramatically the investment and operation costs related to theequipment (the gas conditioning system cost becomes 30% as that of astandard free-standing conditioning system) as well as the complexity ofthe plant, guaranteeing the economic viability.
3. Reforming of both tar and methane is carried out directly in thefreeboard of the gasifier, reducing all costs due to a downstreamsecondary reformer.
4. The use of a ceramic foam with a wide catalytic surface areaimpregnated with Cu and Fe for Water Gas Shift eliminates the need tooperate at high pressure in order to have high conversion efficiency.
The Unifhy work and objectives
An European project, supported by the EuropeanCommission’s 7th Framework Programme
Universityof
L’Aquila
The scope of work will comprise development and scale up activities onmaterials and reactors design.
1. process feasibility demonstrated using CIRPS and ENEA laboratories;2. system feasibility demonstrated using a compact small scale (100 kWth)
fluidized bed indirectly heated gasifier;3. industrial feasibility demonstrated using a 1000 kWth fluidized bed
steam/oxygen gasifier.UNIfHY will provide, with respect to the traditional thermochemical
systems for hydrogen production (e.g. cold gas conditioning):1. investment cost savings estimated to be more than 50%,2. simplified plant layout with reduction of space and components up to
50% of those normally required (a relevant logistic, managerial andoperative benefit)
3. overall efficiency greater than 50% in comparison to standard systems(70% versus 45%).
The system is expected to produce hydrogen at a cost of 2-4 €/kg (about 17€/GJ, depending on the cost of the biomass.