Rational bioenergy utilisation in energy systems and impacts on CO2emissions

Wahlund, Bertil

January 2003

The increased concentration of greenhouse gases in theatmosphere, in particular CO2, is changing the Earth’s climate. Accordingto the Kyoto protocol, where the international community agreedon binding emission targets, developed countries are committedto reduce their greenhouse gas emissions. The increased use ofbiomass in energy systems is an important strategy to reduce CO2emissions. The purpose of this thesis has been toanalyse the opportunities for Sweden to further reduce CO2emissions in the energy system, by rationallyutilising woody biomass energy. The characteristics of currentcommercially operating biofuel-based CHP plants in Sweden aresurveyed and systematically presented. A consistent andtransparent comprehensive reference base for system comparisonsis given. Furthermore, the fuel effectiveness and contributionto CO2reduction is calculated. The governmentalsubsidies of the CHP plants’investment, expressed as costof specific CO2reduction, appears to be low. The competitiveness of biomass-fuelled energy production inrelation to fossil-based production with carbon capture isanalysed, showing that the biomass-fuelled systems provide acompetitive option, in terms of cost of electricity andefficiencies. The remaining Swedish woody biofuel potential ofat least 100 PJ/yr is principally available in regions with abiomass surplus. Transportation is therefore required to enableits utilisation in a further national and international market.Refining the biofuel feedstock to pellets, or even furtherrefining to motor fuels (DME, methanol or ethanol) or power,could facilitate this transport. Different options for fuelrefining are studied and compared. The entire fuel chain, fromfuel feedstock to end users, is considered and CO2emissions are quantified. Substituting fuelpellets for coal appears to be the most costeffectivealternative and shows the largest CO2reduction per energy unit biofuel. Motor fuelsappear more costly and give about half the CO2reduction. Transportation of the upgraded biofuelpellets is highly feasible from CO2emissions point of view and does not constitute ahindrance for further utilisation, i.e. the pellets can betransported over long distances efficiently with only limitedemissions of CO2. Bioenergy utilisation has additional features forenvironmental improvement, apart from the CO2aspect. Waste heat from biofuel-based CHP can becost-effectively used in conjunction with sewage treatment. Theincoming sewage water to the nitrification process can bepreheated with the waste heat, and thereby substantiallyenhance the nitrification and the reduction of ammoniumnitrogen during the winter season. <b>Keywords:</b>CO2reduction, energy system, biofuel, CHP, refining,fuel pellets, ethanol, methanol, DME, fuel substitution, sewagewater, nitrification.

CO2 reduction

energy system

biofuel

CHP

refining

fuel pellets

ethanol

methanol

DME

fuel substitution

sewage water

nitrification

Rational bioenergy utilisation in energy systems and impacts on CO2emissions

Wahlund, Bertil

January 2003

<p>The increased concentration of greenhouse gases in theatmosphere, in particular CO₂, is changing the Earth’s climate. Accordingto the Kyoto protocol, where the international community agreedon binding emission targets, developed countries are committedto reduce their greenhouse gas emissions. The increased use ofbiomass in energy systems is an important strategy to reduce CO₂emissions. The purpose of this thesis has been toanalyse the opportunities for Sweden to further reduce CO₂emissions in the energy system, by rationallyutilising woody biomass energy. The characteristics of currentcommercially operating biofuel-based CHP plants in Sweden aresurveyed and systematically presented. A consistent andtransparent comprehensive reference base for system comparisonsis given. Furthermore, the fuel effectiveness and contributionto CO₂reduction is calculated. The governmentalsubsidies of the CHP plants’investment, expressed as costof specific CO₂reduction, appears to be low.</p><p>The competitiveness of biomass-fuelled energy production inrelation to fossil-based production with carbon capture isanalysed, showing that the biomass-fuelled systems provide acompetitive option, in terms of cost of electricity andefficiencies. The remaining Swedish woody biofuel potential ofat least 100 PJ/yr is principally available in regions with abiomass surplus. Transportation is therefore required to enableits utilisation in a further national and international market.Refining the biofuel feedstock to pellets, or even furtherrefining to motor fuels (DME, methanol or ethanol) or power,could facilitate this transport. Different options for fuelrefining are studied and compared. The entire fuel chain, fromfuel feedstock to end users, is considered and CO₂emissions are quantified. Substituting fuelpellets for coal appears to be the most costeffectivealternative and shows the largest CO₂reduction per energy unit biofuel. Motor fuelsappear more costly and give about half the CO₂reduction. Transportation of the upgraded biofuelpellets is highly feasible from CO₂emissions point of view and does not constitute ahindrance for further utilisation, i.e. the pellets can betransported over long distances efficiently with only limitedemissions of CO₂.</p><p>Bioenergy utilisation has additional features forenvironmental improvement, apart from the CO₂aspect. Waste heat from biofuel-based CHP can becost-effectively used in conjunction with sewage treatment. Theincoming sewage water to the nitrification process can bepreheated with the waste heat, and thereby substantiallyenhance the nitrification and the reduction of ammoniumnitrogen during the winter season.</p><p><b>Keywords:</b>CO₂reduction, energy system, biofuel, CHP, refining,fuel pellets, ethanol, methanol, DME, fuel substitution, sewagewater, nitrification.</p>

CO2 reduction

energy system

biofuel

CHP

refining

fuel pellets

ethanol

methanol

DME

fuel substitution

sewage water

nitrification

Determinação experimental de taxas de reação no 238U e 235U ao longo do raio da pastilha de UO2 do reator IPEN/MB-01 / Experimental determination of nuclear reaction rates in 238U and 235U along of the radius of fuel pellets of the IPEN/MB-01 reactor

Mura, Luís Felipe Liambos

06 November 2015

Este trabalho apresenta e consolida uma metodologia alternativa para a determinação de taxas de reação nuclear ao longo da direção radial das pastilhas combustíveis sem necessidade de intensos fluxos neutrônicos. Esta técnica se baseia na irradiação de um disco de UO2 inserido no interior de uma vareta combustível desmontável no núcleo do reator IPEN/MB-01. Após a irradiação são realizadas várias espectrometrias gama do disco utilizando um detector HPGe alternando sequencialmente 6 colimadores de chumbo com diâmetros diferentes. Consequentemente, as reações nucleares de captura radiativa que ocorrem nos átomos de 238U, juntamente com as fissões que ocorrem em ambos 235U e 238U são mensuradas em função de 6 regiões radiais distintas do disco combustível. As correções de eficiência geométrica devido à introdução dos colimadores no sistema de detecção HPGe são determinadas através do código MCNP-5. As medidas de taxa de fissão são realizadas utilizando o 99Mo como radionuclídeo traçador. Esse radionuclídeo foi estudado e provou-se ideal para estas medidas por possuir um comportamento linear de formação, alto rendimento de fissão e principalmente por emitir fótons de baixa energia. As medidas foram efetuadas irradiando discos de UO2 (com enriquecimento de 4,3%) na posição central do reator IPEN/MB-01 a potência de 100 Watts durante uma hora. Algumas medidas foram realizadas utilizando uma luva de cádmio envolta na vareta combustível para determinar as taxas de reação nuclear na faixa de energia epitérmica. Os resultados experimentais obtidos são comparados a cálculos de taxa de reação nuclear via MCNP-5 utilizando a biblioteca de dados ENDF/B-VII.0, os quais apresentaram discrepâncias de no máximo 9% para as taxas de captura no 238U e 14% para as taxas de fissão no U na faixa epitérmica. Foram obtidos valores máximos de 4,5% para incertezas relativas as taxas de captura total e epitérmica e para as taxas de fissão total e epitérmica valores máximos de 11,3%. / This research presents and consolidates an alternative methodology for determining nuclear reaction rates along the radial direction of the fuel pellets which does not require high neutron flux. This technique is based on irradiating a thin UO2 disk inserted into a removable fuel rod at the IPEN/MB-01 reactor core. Several gamma spectrometries are performed after irradiation using a HPGe detector. Six lead collimators with different diameters are sequentially alternated during this process, thus, the nuclear radioactive capture which occurs in 238U and the fissions which occur in both 235U and 238U are measured according to six different radial regions of the fuel disk. Geometric efficiency corrections due to the introduction of collimators in HPGe detection system are determined by MCNP-5 code. The fission rate measurements are performed using the 99Mo. This radionuclide was studied and proved ideal for these measurements because it is formed in linear behavior in the reactor core, have a high yield fission and emits low-energy photons. Measurements were performed irradiating UO2 disks (with 4.3% enrichment) in the central position of the IPEN/MB-01 core at 100 watts power level during one hour. Some measurements were performed using a cadmium glove wrapped in the fuel rod to determine the nuclear reaction rates in the epithermal energy range. The experimental results obtained are compared with nuclear reaction rate calculations by means of MCNP-5 with ENDF/B-VII.0 data library showing discrepancies of up to 9% in 238U capture rates and 14% for U fission rates for epithermal energies. Uncertainties regarding the nuclear capture rates have maximum values of 4.5% and the fission rates has maximum values of 11.3%.

captura radiativa

fissão

fission

fuel pellets

IPEN/MB-01

IPEN/MB-01

pastilhas combustíveis

radiative capture

reaction rates

taxas de reação nuclear

Particulate and gaseous emissions from residential biomass combustion

Boman, Christoffer

January 2005

<p>Biomass is considered to be a sustainable energy source with significant potentials for replacing electricity and fossil fuels, not at least in the residential sector. However, present wood combustion is a major source of ambient concentrations of hydrocarbons (e.g. VOC and PAH) and particulate matter (PM) and exposure to these pollutants have been associated with adverse health effects. Increased focus on combustion related particulate emissions has been seen concerning the formation, characteristics and implications to human health. Upgraded biomass fuels (e.g. pellets) provide possibilities of more controlled and optimized combustion with less emission of products of incomplete combustion (PIC´s). For air quality and health impact assessments, regulatory standards and evaluations concerning residential biomass combustion, there is still a need for detailed emission characterization and quantification when using different fuels and combustion techniques.</p><p>This thesis summarizes the results from seven different papers. The overall objective was to carefully and systematically study the emissions from residential biomass combustion with respect to: i) experimental characterization and quantification, ii) influences of fuel, appliance and operational variables and iii) aspects of ash and trace element transformations and aerosol formation. Special concern in the work was on sampling, quantification and characterization of particulate emissions using different appliances, fuels and operating procedures.</p><p>An initial review of health effects showed epidemiological evidence of potential adverse effect from wood smoke exposure. A robust whole flow dilution sampling set-up for residential biomass appliances was then designed, constructed and evaluated, and subsequently used in the following emission studies. Extensive quantifications and characterizations of particulate and gases emissions were performed for residential wood and pellet appliances. Emission factor ranges for different stoves were determined with variations in fuel, appliance and operational properties. The emissions of PIC´s as well as PM_tot from wood combustion were in general shown to be considerably higher compared to pellets combustion. PAH_tot emissions were determined in the range of 1300-220000 µg/MJ for wood stoves and 2-300 µg/MJ for pellet stoves with phenantrene, fluoranthene and pyrene generally found as major PAH´s. The PM emissions from present residential appliances was found to consist of significant but varying fractions of PIC´s, with emissions in the range 35-350 mg/MJ for wood stoves compared to 15-45 mg/MJ for pellet stoves. Accordingly, the use of up-graded biomass fuels, combusted under continuous and controlled conditions give advantageous combustion conditions compared to traditional batch wise firing of wood logs. The importance of high temperature in well mixed isothermal conditions was further illustrated during pellets combustion to obtain complete combustion with almost a total depletion of PIC´s. Fine (100-300 nm) particles dominated in all studied cases the PM with 80-95% as PM1. Beside varying fractions of carbonaceous material, the fine PM consisted of inorganic volatilized ash elements, mainly found as KCl, K₃Na(SO₄)₂ and K₂SO₄ with mass concentrations at 15-20 mg/MJ during complete combustion. The importance of the behavior of alkali elements for the ash transformation and fine particle formation processes was further shown, since the stability, distributions and compositions also directly control the degree of volatilization. In addition to the alkali metals, zinc was found as an important element in fine particles from residential biomass combustion. Finally, the behaviour of volatile trace elements, e.g. Zn and Cd, during pellets production and combustion were studied. A significant enrichment in the pellet fuel during the drying process was determined. The magnitude and importance of the enrichment was, however, relative small and some alternative measures for prevention were also suggested.</p>

Chemistry

aerosols

air pollution

emissions

fuel pellets

residential biomass combustion

inorganic characterization

incomplete combustion

particulate matter

polycyclic aromatic hydrocarbons

trace elements

Kemi

Chemistry

Kemi

Particulate and gaseous emissions from residential biomass combustion

Boman, Christoffer

January 2005

Biomass is considered to be a sustainable energy source with significant potentials for replacing electricity and fossil fuels, not at least in the residential sector. However, present wood combustion is a major source of ambient concentrations of hydrocarbons (e.g. VOC and PAH) and particulate matter (PM) and exposure to these pollutants have been associated with adverse health effects. Increased focus on combustion related particulate emissions has been seen concerning the formation, characteristics and implications to human health. Upgraded biomass fuels (e.g. pellets) provide possibilities of more controlled and optimized combustion with less emission of products of incomplete combustion (PIC´s). For air quality and health impact assessments, regulatory standards and evaluations concerning residential biomass combustion, there is still a need for detailed emission characterization and quantification when using different fuels and combustion techniques. This thesis summarizes the results from seven different papers. The overall objective was to carefully and systematically study the emissions from residential biomass combustion with respect to: i) experimental characterization and quantification, ii) influences of fuel, appliance and operational variables and iii) aspects of ash and trace element transformations and aerosol formation. Special concern in the work was on sampling, quantification and characterization of particulate emissions using different appliances, fuels and operating procedures. An initial review of health effects showed epidemiological evidence of potential adverse effect from wood smoke exposure. A robust whole flow dilution sampling set-up for residential biomass appliances was then designed, constructed and evaluated, and subsequently used in the following emission studies. Extensive quantifications and characterizations of particulate and gases emissions were performed for residential wood and pellet appliances. Emission factor ranges for different stoves were determined with variations in fuel, appliance and operational properties. The emissions of PIC´s as well as PMtot from wood combustion were in general shown to be considerably higher compared to pellets combustion. PAHtot emissions were determined in the range of 1300-220000 µg/MJ for wood stoves and 2-300 µg/MJ for pellet stoves with phenantrene, fluoranthene and pyrene generally found as major PAH´s. The PM emissions from present residential appliances was found to consist of significant but varying fractions of PIC´s, with emissions in the range 35-350 mg/MJ for wood stoves compared to 15-45 mg/MJ for pellet stoves. Accordingly, the use of up-graded biomass fuels, combusted under continuous and controlled conditions give advantageous combustion conditions compared to traditional batch wise firing of wood logs. The importance of high temperature in well mixed isothermal conditions was further illustrated during pellets combustion to obtain complete combustion with almost a total depletion of PIC´s. Fine (100-300 nm) particles dominated in all studied cases the PM with 80-95% as PM1. Beside varying fractions of carbonaceous material, the fine PM consisted of inorganic volatilized ash elements, mainly found as KCl, K3Na(SO4)2 and K2SO4 with mass concentrations at 15-20 mg/MJ during complete combustion. The importance of the behavior of alkali elements for the ash transformation and fine particle formation processes was further shown, since the stability, distributions and compositions also directly control the degree of volatilization. In addition to the alkali metals, zinc was found as an important element in fine particles from residential biomass combustion. Finally, the behaviour of volatile trace elements, e.g. Zn and Cd, during pellets production and combustion were studied. A significant enrichment in the pellet fuel during the drying process was determined. The magnitude and importance of the enrichment was, however, relative small and some alternative measures for prevention were also suggested.

Chemistry

aerosols

air pollution

emissions

fuel pellets

residential biomass combustion

inorganic characterization

incomplete combustion

particulate matter

polycyclic aromatic hydrocarbons

trace elements

Kemi

Chemistry

Kemi

Comportamento termoidraulico de vareta aquecida eletricamente durante transitorio de fluxo critico de calor

LIMA, RITA de C.F. de

09 October 2014

Made available in DSpace on 2014-10-09T12:42:40Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:57:16Z (GMT). No. of bitstreams: 1 05031.pdf: 4962096 bytes, checksum: 39c12c06c0063abb20c1c82005ecef33 (MD5) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP

boilers

boiling detection

boiling

critical heat flux

dryout

fuel pellets

fuel rods

heat transfer

hot spots

nuclear engineering

reactor safety

reactor technology

reactors

rewetting

Determinação exerimental de razões espectrais e do espectro de energia dos nêutrons no combustível do reator nuclear IPEN/MB-01 / Experimental determination of spectral ratios and of neutrons energy flux in the fuel of the nuclear reactorIPEN/MB-01

NUNES, BEATRIZ G.

09 October 2014

Made available in DSpace on 2014-10-09T12:34:24Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:09:44Z (GMT). No. of bitstreams: 0 / Dissertação (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP

IPEN-MB-1 REACTOR

FUEL ELEMENTS

NEUTRON FLUX

REACTIVITY

FUEL PELLETS

ACTIVATION DETECTORS

HIGH-PURITY GE DETECTORS

MONTE CARLO METHOD

M CODES

Comportamento termoidraulico de vareta aquecida eletricamente durante transitorio de fluxo critico de calor

LIMA, RITA de C.F. de

09 October 2014

Made available in DSpace on 2014-10-09T12:42:40Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:57:16Z (GMT). No. of bitstreams: 1 05031.pdf: 4962096 bytes, checksum: 39c12c06c0063abb20c1c82005ecef33 (MD5) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP

boilers

boiling detection

boiling

critical heat flux

dryout

fuel pellets

fuel rods

heat transfer

hot spots

nuclear engineering

reactor safety

reactor technology

reactors

rewetting

Determinação exerimental de razões espectrais e do espectro de energia dos nêutrons no combustível do reator nuclear IPEN/MB-01 / Experimental determination of spectral ratios and of neutrons energy flux in the fuel of the nuclear reactorIPEN/MB-01

NUNES, BEATRIZ G.

09 October 2014

Made available in DSpace on 2014-10-09T12:34:24Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:09:44Z (GMT). No. of bitstreams: 0 / Este trabalho visa determinar as razões espectrais e o espectro de energia de nêutrons no interior do combustível do Reator Nuclear IPEN/MB-01. Estes parâmetros são de grande importância para determinar com precisão parâmetros físicos de reatores nucleares, como taxas de reação, tempo de vida do combustível e também parâmetros de segurança, tais como reatividade. Para o experimento, utilizou-se detectores de ativação na forma de finas folhas metálicas, introduzidas em uma vareta combustível experimental desmontável. Em seguida, a vareta foi colocada na posição central do núcleo, que tem uma configuração retangular padrão de 26x28 varetas combustível. Foram utilizados detectores de ativação de diferentes elementos como 197Au, 238U, 45SC, 58Ni, 24Mg, 47Ti e 115In para cobrir grande parte do espectro de energia dos nêutrons. Após a irradiação, os detectores de ativação foram submetidos a espectrometria gama utilizando um sistema de contagem com Germânio hiper-puro, afim de se obter a taxa de reação (atividade de saturação) por núcleo alvo. As razões espectrais foram comparadas com valores obtidos através do método de Monte Carlo utilizando o código MCNP-4C. O espectro de energia de nêutrons foi obtido no interior da vareta combustível utilizando o código SANDBP com um espectro de entrada obtido pelo código MCNP-4C, a partir dos valores de atividade de saturação por núcleo alvo dos detectores de ativação irradiados. / Dissertação (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP

ipen-mb-1 reactor

fuel elements

neutron flux

reactivity

fuel pellets

activation detectors

high-purity ge detectors

monte carlo method

m codes

Determinação experimental de taxas de reação no 238U e 235U ao longo do raio da pastilha de UO2 do reator IPEN/MB-01 / Experimental determination of nuclear reaction rates in 238U and 235U along of the radius of fuel pellets of the IPEN/MB-01 reactor

Luís Felipe Liambos Mura

06 November 2015

Este trabalho apresenta e consolida uma metodologia alternativa para a determinação de taxas de reação nuclear ao longo da direção radial das pastilhas combustíveis sem necessidade de intensos fluxos neutrônicos. Esta técnica se baseia na irradiação de um disco de UO2 inserido no interior de uma vareta combustível desmontável no núcleo do reator IPEN/MB-01. Após a irradiação são realizadas várias espectrometrias gama do disco utilizando um detector HPGe alternando sequencialmente 6 colimadores de chumbo com diâmetros diferentes. Consequentemente, as reações nucleares de captura radiativa que ocorrem nos átomos de 238U, juntamente com as fissões que ocorrem em ambos 235U e 238U são mensuradas em função de 6 regiões radiais distintas do disco combustível. As correções de eficiência geométrica devido à introdução dos colimadores no sistema de detecção HPGe são determinadas através do código MCNP-5. As medidas de taxa de fissão são realizadas utilizando o 99Mo como radionuclídeo traçador. Esse radionuclídeo foi estudado e provou-se ideal para estas medidas por possuir um comportamento linear de formação, alto rendimento de fissão e principalmente por emitir fótons de baixa energia. As medidas foram efetuadas irradiando discos de UO2 (com enriquecimento de 4,3%) na posição central do reator IPEN/MB-01 a potência de 100 Watts durante uma hora. Algumas medidas foram realizadas utilizando uma luva de cádmio envolta na vareta combustível para determinar as taxas de reação nuclear na faixa de energia epitérmica. Os resultados experimentais obtidos são comparados a cálculos de taxa de reação nuclear via MCNP-5 utilizando a biblioteca de dados ENDF/B-VII.0, os quais apresentaram discrepâncias de no máximo 9% para as taxas de captura no 238U e 14% para as taxas de fissão no U na faixa epitérmica. Foram obtidos valores máximos de 4,5% para incertezas relativas as taxas de captura total e epitérmica e para as taxas de fissão total e epitérmica valores máximos de 11,3%. / This research presents and consolidates an alternative methodology for determining nuclear reaction rates along the radial direction of the fuel pellets which does not require high neutron flux. This technique is based on irradiating a thin UO2 disk inserted into a removable fuel rod at the IPEN/MB-01 reactor core. Several gamma spectrometries are performed after irradiation using a HPGe detector. Six lead collimators with different diameters are sequentially alternated during this process, thus, the nuclear radioactive capture which occurs in 238U and the fissions which occur in both 235U and 238U are measured according to six different radial regions of the fuel disk. Geometric efficiency corrections due to the introduction of collimators in HPGe detection system are determined by MCNP-5 code. The fission rate measurements are performed using the 99Mo. This radionuclide was studied and proved ideal for these measurements because it is formed in linear behavior in the reactor core, have a high yield fission and emits low-energy photons. Measurements were performed irradiating UO2 disks (with 4.3% enrichment) in the central position of the IPEN/MB-01 core at 100 watts power level during one hour. Some measurements were performed using a cadmium glove wrapped in the fuel rod to determine the nuclear reaction rates in the epithermal energy range. The experimental results obtained are compared with nuclear reaction rate calculations by means of MCNP-5 with ENDF/B-VII.0 data library showing discrepancies of up to 9% in 238U capture rates and 14% for U fission rates for epithermal energies. Uncertainties regarding the nuclear capture rates have maximum values of 4.5% and the fission rates has maximum values of 11.3%.

captura radiativa

fissão

IPEN/MB-01

pastilhas combustíveis

taxas de reação nuclear

fission

fuel pellets

IPEN/MB-01

radiative capture

reaction rates