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Avaliação do ciclo de vida de potenciais rotas de produção de hidrogênio: estudo dos sistemas de gaseificação da biomassa e de energia solar fotovoltaica / Life cycle assessment of hydrogen production routes: study of gaseification systems and photovoltaic solar powerFUKUROZAKI, SANDRA H. 09 October 2014 (has links)
Made available in DSpace on 2014-10-09T12:33:38Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:05:54Z (GMT). No. of bitstreams: 0 / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP
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Avaliação do ciclo de vida de potenciais rotas de produção de hidrogênio: estudo dos sistemas de gaseificação da biomassa e de energia solar fotovoltaica / Life cycle assessment of hydrogen production routes: study of gaseification systems and photovoltaic solar powerFUKUROZAKI, SANDRA H. 09 October 2014 (has links)
Made available in DSpace on 2014-10-09T12:33:38Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:05:54Z (GMT). No. of bitstreams: 0 / No presente trabalho, o desempenho energético e ambiental de potencias rotas de produção de hidrogênio gaseificação da biomassa via leito fixo (LFX) e leito fluidizado (LFL) e de energia solar fotovoltaica foram estudados com base na metodologia de Avaliação do Ciclo de Vida (ACV). Após a revisão da literatura e a descrição dos procedimentos de análise, os resultados da ACV são apresentados e discutidos em termos de Demanda Acumulada de Energia (CED), Tempo de Retorno de Investimento em Energia (EPBT) e danos relacionados à Saúde Humana (SH), Qualidade do Ecossistema (QE) e Recursos Minerais e Combustíveis Fósseis (RMCF). No cômputo geral, o LFL é mais favorável para a produção de hidrogênio, embora os dois sistemas de gaseificação apresentem desempenho energético e ambiental similares. Comparativamente, o sistema fotovoltaico apresenta um EPBT maior (4,55 anos) do que os encontrados nos dois sistemas de conversão da biomassa (1,65 anos no LFL e 1,77 anos no LFX). Por outro lado, o sistema de energia solar fotovoltaico é o mais ambientalmente recomendável para a produção de hidrogênio, tendo em vista a menor contribuição em relação aos danos majoritários (saúde humana). Dentro do escopo do estudo, os sistemas avaliados apresentam mais características de complementaridade do que competição. Neste caso, enfatiza-se a importância de uma análise dos fatores econômicos e sociais pertinentes a cada país ou região, bem como dos processos posteriores de reforma e/ou purificação e eletrólise da água, considerando também o seu inteiro ciclo de vida. / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP
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Performance characteristics of packed bed thermal energy storage for solar thermal power plantsAllen, Kenneth Guy 03 1900 (has links)
Thesis (MScEng (Mechanical and Mechatronic Engineering))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Solar energy is by far the greatest energy resource available to generate power.
One of the difficulties of using solar energy is that it is not available 24 hours per
day - some form of storage is required if electricity generation at night or during
cloudy periods is necessary. If a combined cycle power plant is used to obtain
higher efficiencies, and reduce the cost of electricity, storage will allow the
secondary cycle to operate independently of the primary cycle. This study focuses
on the use of packed beds of rock or slag, with air as a heat transfer medium, to
store thermal energy in a solar thermal power plant at temperatures sufficiently
high for a Rankine steam cycle. Experimental tests were done in a packed bed test
section to determine the validity of existing equations and models for predicting
the pressure drop and fluid temperatures during charging and discharging. Three
different sets of rocks were tested, and the average size, specific heat capacity and
density of each set were measured. Rock and slag samples were also thermally
cycled between average temperatures of 30 ºC and 510 ºC in an oven.
The classical pressure drop equation significantly under-predicts the pressure drop
at particle Reynolds numbers lower than 3500. It appears that the pressure drop
through a packed bed is proportional to the 1.8th power of the air flow speed at
particle Reynolds numbers above about 500. The Effectiveness-NTU model
combined with a variety of heat transfer correlations is able to predict the air
temperature trend over the bed within 15 % of the measured temperature drop
over the packed bed. Dolerite and granite rocks were also thermally cycled 125
times in an oven without breaking apart, and may be suitable for use as thermal
storage media at temperatures of approximately 500 ºC.
The required volume of a packed bed of 0.1 m particles to store the thermal
energy from the exhaust of a 100 MWe gas turbine operating for 8 hours is
predicted to be 24 × 103 m3, which should be sufficient to run a 25-30 MWe steam
cycle for over 10 hours. This storage volume is of a similar magnitude to existing
molten salt thermal storage. / AFRIKAANSE OPSOMMING: Sonenergie is die grootste energiebron wat gebruik kan word vir krag opwekking.
‘n Probleem met die gebruik van sonenergie is dat die son nie 24 uur per dag skyn
nie. Dit is dus nodig om die energie te stoor indien dit nodig sal wees om
elektrisiteit te genereer wanneer die son nie skyn nie. ‘n Gekombineerde
kringloop kan gebruik word om ‘n hoër benuttingsgraad te bereik en elektrisiteit
goedkoper te maak. Dit sal dan moontlik wees om die termiese energie uit die
primêre kringloop te stoor, wat die sekondêre kringloop onafhanklik van die
primêre kringloop sal maak. Dié gevalle studie ondersoek die gebruik van ‘n slakof-
klipbed met lug as hitteoordragmedium, om te bepaal of dit moontlik is om
hitte te stoor teen ‘n temperatuur wat hoog genoeg is om ‘n Rankine stoom
kringloop te bedryf. Eksperimentele toetse is in ‘n toets-bed gedoen en die
drukverandering oor die bed en die lug temperatuur is gemeet en vergelyk met
voorspelde waardes van vergelykings en modelle in die literatuur. Drie soorte
klippe was getoets. Die gemiddelde grootte, spesifieke hitte-kapasiteit en digtheid
van elke soort klip is gemeet. Klip en slak monsters is ook siklies tussen
temperature van 30 ºC en 510 ºC verkoel en verhit.
Die klassieke drukverlies vergelyking gee laer waardes as wat gemeet is vir
Reynolds nommers minder as 3500. Dit blyk dat die drukverlies deur ‘n klipbed
afhanklik is van die lug vloeispoed tot die mag 1.8 as die Reynolds nommer groter
as omtrent 500 is. Die ‘Effectiveness-NTU’ model gekombineerd met ‘n
verskeidenheid van hitteoordragskoeffisiënte voorspel temperature binne 15 %
van die gemete temperatuur verskil oor die bed. Doloriet en graniet klippe het 125
sikliese toetse ondergaan sonder om te breek, en is miskien gepas vir gebruik in ‘n
klipbed by temperature van sowat 500 ºC
Die voorspelde volume van ‘n klipbed wat uit 0.1 m klippe bestaan wat die
termiese energie vir 8 ure uit die uitlaat van ‘n 100 MWe gasturbiene kan stoor, is
24 × 103 m3. Dit behoort genoeg te wees om ‘n 25 – 30 MWe stoom kringloop vir
ten minste 10 ure te bedryf. Die volume is min of meer gelyk aan dié van
gesmelte sout store wat alreeds gebou is.
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A heliostat field control systemMalan, Karel Johan 04 1900 (has links)
Thesis (MEng)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: The ability of concentrating solar power (CSP) to efficiently store large amounts of
energy sets it apart from other renewable energy technologies. However, cost
reduction and improved efficiency is required for it to become more economically
viable. Significant cost reduction opportunities exist, especially for central receiver
system (CRS) technology where the heliostat field makes up 40 to 50 per cent of the
total capital expenditure.
CRS plants use heliostats to reflect sunlight onto a central receiver. Heliostats with
high tracking accuracy are required to realize high solar concentration ratios. This
enables high working temperatures for efficient energy conversion. Tracking errors
occur mainly due to heliostat manufacturing-, installation- and alignment tolerances,
but high tolerance requirements generally increase cost. A way is therefore needed to
improve tracking accuracy without increasing tolerance requirements.
The primary objective of this project is to develop a heliostat field control system
within the context of a 5MWe CRS pilot plant. The control system has to govern the
tracking movement of all heliostats in the field and minimize errors over time. A
geometric model was developed to characterize four deterministic sources of heliostat
tracking errors.
A prototype system comprising 18 heliostats was constructed to function as a scaled
down subsection of the pilot plant heliostat field and to validate the chosen control
method and system architecture. Periodic measurements of individual heliostats’
tracking offsets were obtained using a camera and optical calibration target combined
with image processing techniques. Mathematical optimization was used to estimate
model coefficients to best fit the measured error offsets. Real-time tracking error
corrections were performed by each heliostat’s local controller unit to compensate for
a combination of error sources. Experimental tracking measurements were performed using the prototype system.
Daily open-loop RMS tracking errors below one milliradian were obtained, thereby
satisfying the project’s primary objective. The thesis concludes that high tracking
accuracy can be achieved using the control method proposed here. This could
potentially lead to a reduction in heliostat cost, thereby lowering the levelised cost of
electricity for CRS plants. / AFRIKAANSE OPSOMMING: Gekonsentreerde sonkrag se vermoë om groot hoeveelhede energie effektief te stoor
onderskei dit van ander hernubare energie tegnologieë. Kostebesparing en hoër
effektiwiteit word egter vereis om dit ekonomies meer lewensvatbaar te maak.
Beduidende kostebesparingsgeleenthede bestaan wel, spesifiek vir tegnologieë vir
sentraal-ontvangerstelsels (central receiver system (CRS)) waar die heliostaatveld 40
tot 50 persent van die totale kapitaalbestedings uitmaak.
CRS aanlegte gebruik heliostate om sonlig op ’n sentrale ontvanger te reflekteer.
Heliostate met ’n hoë volgingsakkuraatheid word vereis om hoë sonkragkonsentrasieverhoudings
te laat realiseer. Dit maak hoë werkstemperature moontlik vir effektiewe
energie-omsetting. Volgingsfoute kom hoofsaaklik voor a.g.v. die heliostaat se
vervaardigings-, installasie- en instellingstoleransies, maar hoë toleransie-vereistes
verhoog gewoonlik die koste. Daar is dus ’n manier nodig om volgingsakkuraatheid
te verbeter sonder om die toleransie-vereistes te verhoog.
Die primêre doel van hierdie projek is om ’n heliostaat aanleg kontrole-stelsel te
ontwikkel binne die konteks van ’n 5 MWe CRS toetsaanleg. Die kontrole-stelsel
moet die volgingsbeweging van al die heliostate in die aanleg bestuur en ook met
verloop van tyd volgingsfoute verminder. ’n Geometriese model is ontwikkel om die
vier bepalende bronne van heliostaat volgingsfoute te karakteriseer.
’n Prototipe stelsel met 18 heliostate is gebou om as ’n funksionele skaalmodel van
die toetsaanleg heliostaatveld te dien en om die gekose kontrole-metode en stelselargitektuur
geldig te verklaar. Periodieke metings van die individuele heliostate se
volgingsafwykings is verkry deur ’n kamera en optiese kalibrasie teiken te kombineer
met beeldprosesseringstegnieke. Wiskundige optimering is gebruik om die model se
koëffisiënte te skat om die beste passing te bepaal vir die gemete foutafwykings.
Intydse volgingsfoutregstellings is deur elke heliostaat se plaaslike beheereenheid
gedoen om te vergoed vir ’n kombinasie van foutbronne. Eksperimentele volgingsmetings is uitgevoer met die prototipestelsel. Daaglikse ooplus
RMS volgingsfoute onder een milliradiaan is verkry, en sodoende is die projek se
primêre doel behaal. Die tesis maak die gevolgtrekking dat hoë volgingsakkuraatheid
behaal kan word deur die gebruik van die beheer-metode soos hier voorgestel. Dit
kan potensieel bydra tot kostebesparing in die heliostaatveld van CRS aanlegte om
sodoende die geykte koste van elektrisiteit te verminder.
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Obnovitelné zdroje energie a jejich dopad na regionální a municipální rozvoj v České republice / Renewable resources and their impact on regional and municipal developmentSládeček, Dušan January 2012 (has links)
This MA thesis examines the effects of wind and photovoltaic power plants on the regional development using the standard regional and statistical analysis tools. The theoretical part focuses on the macroeconomical point of view concerning the support of renewable energy sources. The consequences for Czech economy can be seen as greatly negative. The practical part includes case studies and focuses on specific municipalities. The result of the findings is that the construction of photovoltaic powe plants does not have a negative impact on the development of municipalities, in the case of smaller ones it can even be seen as an economic asset.
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Corrosion Behaviour Of Aisi 304 Stainless Steel In Contact With Eutectic Salt For Concentrated Solar Power Plant ApplicationsAhmed, Omar 01 January 2013 (has links)
In response to the extensive energy demands on national and global levels, concentrated solar power (CSP) plants are designed to harness and convert solar energy to electricity. For such green energy application, robust, reliable and durable materials for CSP constructions are required. The corrosion resistance is among many parameters to consider in these thermalelectrical stations such as for pipes and storage tanks in CSP. In this investigation, the corrosion behavior of AISI 304 stainless steel (18 wt. % Cr, 8 wt. % Ni) with the heat transfer fluid, also known as solar salt, has been examined. The ternary eutectic salt mixture with the composition, 53 wt. % KNO3, 40 wt. % NaNO2, and 7 wt. % NaNO3, that melts at 142°C, has a potential use in CSP as a heat transfer fluid. The solar salt was prepared for this corrosion study from reagent grades of high purity nitrites and nitrates. Samples of AISI 304 stainless steel were sectioned from a sheet stock of the alloy and exposed to solar salt at 530°C in air at 1 atmospheric pressure. After test intervals of 250, 500, and 750 hours in total immersion condition, AISI 304 stainless steel samples have developed a scale of corrosion products made up of multiple oxides. X-ray diffraction and scanning electron microscopy with X-ray energy-dispersive spectroscopy were employed to examine the extent of corrosion and identify the corrosion products. Transmission electron microscopy was used to verify the corrosion products identity via electron diffraction patterns. Oxides of iron were found to be the primary corrosion products in the presence of the molten alkali nitrates-nitrite salt mixture because of the dissolution of the protective chromium oxide (Cr2O3) scale formed on AISI 304 stainless steel coupons. The corrosion scale was uniform in thickness and made up of sodium iron oxide (NaFeO2), iron oxide, hematite (Fe2O3), and chromium-iron oxide (Cr,Fe)2O3 solid solution. The latter was iv found near the AISI 304 stainless steel. This indicates that the scale formed, particularly on the upper layers with presence of sodium iron oxide and iron oxide, hematite, is protective, and forms an effective barrier against penetration of fused solar salt. At the alloy interface with the bulk corrosion scale, the corrosion process induced a compositional modification in the grains located at the interface. There are iron rich and iron depleted grains at the interface if compared to the nominal iron content of the alloy. The mode of attack is identified as uniform at the test temperature of 530°C, showing a parabolic behavior with a parabolic rate constant (Kp) equals to (m2 /sec). By extrapolation, annual corrosion rate is estimated to reach 0.784 mils per year. Corrosion behavior of AISI 304 stainless steel is discussed in terms of thermodynamics and reaction paths.
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The Hybrid Pressurized Air Receiver (HPAR) for combined cycle solar thermal power plantsKretzschmar, Holger 04 1900 (has links)
Thesis (MScEng)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Concentrating solar power technology is a modern power generation technology
in which central receiver systems play a significant role. For this technology a
field of heliostats is used to reflect solar irradiation to the receiver located on
top of the tower. An extensive review has shown that contemporary receiver
designs face geometric complexities, lack of thermal efficiency as well as issues
with durability and cost. The purpose of this study is to develop a new receiver
concept that can potentially reduce these issues. A parametric analysis
was used to identify potential means of improvement based on an energy balance
approach including sensitivities involved with convection and radiation
heat transfer. Design criteria such as the use of headers to minimize pressure
drop was also investigated. Based on these findings the hybrid pressurized
air receiver was developed which is a combination of tubular and volumetric
receiver technologies. The fundamental idea of the receiver was investigated
by simulating the ray-tracing and coupled natural convection and radiation
heat transfer. The ray-tracing results have shown that the use of quartz glass
is a prospective solution to higher allowable flux densities, but with reflection
losses in the order of 7 %. The coupled natural convection heat transfer
simulation further revealed that the receiver concept effectively eliminates the
escape of buoyant plumes and radiative heat losses are minimized. Empirical
data was gathered from a medium flux concentrator and good agreement with
the numerical results was obtained. The thesis therefore concludes that the
research outcomes were met. Ongoing research aims to optimise the receiver
concept for a 5MW pilot plant. / AFRIKAANSE OPSOMMING: Gekonsentreerde sonkrag tegnologie is ’n moderne kragopwekkingstegnologie
waar sentrale ontvangersisteme ’n beduidende rol speel. Vir hierdie tegnologie
word ’n veld heliostate gebruik om sonstraling na die ontvanger wat aan
die bopunt van die toring geleë is te reflekteer. ’n Omvattende hersiening
het daarop gewys dat kontemporêre ontwerpe van die ontvangers ’n aantal
geometriese kompleksiteite, ’n tekort aan termiese doeltreffendheid sowel as
probleme in terme van duursaamheid en koste in die gesig staar. Die doel van
die studie is om ’n nuwe ontvangerskonsep te ontwikkel wat moontlik hierdie
probleme kan verminder. ’n Parametriese analise is gebruik om potensiële
maniere van verbetering aan te dui wat gebaseer is op ’n energiebalans benadering;
insluitend sensitiwiteite betrokke by konvektiewe en stralingswarmteoordrag.
Ontwerpkriteria soos die gebruik van spruitstukke om drukverliese
te minimaliseer is ook ondersoek. Gebaseer op hierdie bevindinge is die hibriede
saamgepersde-lug ontvanger ontwikkel. Laasgenoemde is ’n kombinasie
van buis- en volumetriese ontvangertegnologie. Die fundamentele idee van die
ontvanger is ondersoek deur straalberekening asook die gelyktydige natuurlike
konveksie en stralingswarmteoordrag te simuleer. Die straalberekeningsresultate
het getoon dat die gebruik van kwarts glas ’n moontlike oplossing is om
hoër stralingsintensiteit te bereik, maar met refleksieverliese in die orde van
7 %. Die gelyktydige natuurlike konveksie en stralingswarmteoordrag simulasie
het verder aan die lig gebring dat die ontvangerkonsep die ontsnapping
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Turbine layout for and optimization of solar chimney power conversion unitsFluri, Thomas Peter 12 1900 (has links)
Thesis (PhD (Mechanical and Mechatronic Engineering))--Stellenbosch University, 2008. / ENGLISH ABSTRACT: The power conversion unit of a large solar chimney power plant converts the fluid power, first into mechanical power, and then into electrical power. In this
dissertation a tool is developed to determine the layout and the number of turbines
of the solar chimney power conversion unit providing the lowest cost of
electricity.
First, the history of the solar chimney concept and the related fields of research
are presented. Potential features and configurations of the power conversion
unit are introduced, and it is shown how the solar chimney power conversion
unit compares to those of other applications. An outline of the dissertation
is given, and its potential impact is discussed.
An analytical turbine model is developed. Several modelling approaches and
the performance of single rotor and counter rotating turbine layouts are compared.
Preliminary turbine designs are investigated, experimentally and numerically.
The main aim of the experimental investigation is to verify the applicability
of the loss model used in the analytical turbine model. The aim of the numerical
investigation is to evaluate a commercial software package as a tool in context
with solar chimney turbines.
For each component of the power conversion unit an analytical performance
model is introduced. Using these models, the single vertical axis, multiple vertical
axis and multiple horizontal axis turbine configurations are compared from
an efficiency and energy yield point of view, and the impact of the various losses
on the overall performance is highlighted. A detailed cost model for the power
conversion unit is also presented. To optimize for cost of electricity this cost
model is then linked to the performance models, and the resulting optimization
scheme is applied to several plant configurations.
It is shown that for a large solar chimney power plant the power conversion
unit providing minimal cost of electricity consists of multiple horizontal axis turbines
using a single rotor layout including inlet guide vanes. / AFRIKAANSE OPSOMMING: Die drywingsomsettingseenheid van ’n groot sonskoorsteenaanleg sit die vloeidrywing om, eers in meganiese drywing en dan in elektriese drywing. In hierdie
proefskrif word ’n gereedskapstuk ontwikkel om die uitleg en aantal turbines van
die sonskoorsteen-drywingsomsettingseenheid te bepaal wat die laagste koste
van elektrisiteit lewer. Eerstens word die geskiedenis van die sonskoorsteen en verwante navorsingsvelde
behandel. Moontlike eienskappe en konfigurasies vir die drywingsomsettingseenheid word
voorgestel, en daar word aangetoon hoe die sonskoorsteendrywingsomsettings-
eenheid vergelyk met ander toepassings. ’n Raamwerk van
die proefskrif word gegee, en die potensiële trefkrag daarvan word bespreek.
’n Analitiese turbine-model word ontwikkel. Verskeie nabootsingsbenaderings
en die vertoning van ’n enkelrotor en teenroterende turbine-uitlegte word
vergelyk. Voorlopige turbine-ontwerpe word ondersoek, eksperimenteel en numeries.
Die hoofdoel van die eksperimentele ondersoek is om die toepaslikheid
van die verliesmodel in die analitiese turbine-model te bevestig. Die doel van die
numeriese ondersoek is om kommersiële sagteware op te weeg as ’n gereedskapstuk
in die konteks van sonskoorsteenturbines.
Vir elke onderdeel van die drywingsomsettingseenheid word ’n analitiese model
voorgestel. Met gebruik van hierdie modelle word die enkele vertikale-as, die
veelvoudige vertikale-as an die veelvoudige horisontale-as turbinekonfigurasies
vergelyk vanuit ’n benuttingsgraad- en energie-opbrengsoogpunt,en die uitwerking
van die verskillende verliese op die algehele gedrag word uitgewys. ’n Kostemodel
in besonderhede word vir die drywingsomsettingseenheid aangebied. Om
vir die koste van elektrisiteit te optimeer word hierdie kostemodel dan gekoppel
aan die vertoningsmodelle, en die gevolglike optimeringskema word toegepas op
verskeie aanlegkonfigurasies.
Daar word aangetoon dat vir ’n groot sonskoorsteenaanleg die drywingsomsettingseenheid wat
die minimumkoste van elektrisiteit gee, bestaan uit veelvoudige
horisontale-as turbines met enkelrotoruitleg en inlaatleilemme. / Centre for Renewable and Sustainable Energy Studies
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Rock bed thermal storage for concentrating solar power plantsAllen, Kenneth Guy 04 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Concentrating solar power plants are a promising means of generating electricity. However, they are dependent on the sun as a source of energy, and require thermal storage to supply power on demand. At present thermal storage – usually molten salt – although functional, is expensive, and a cheaper solution is desired. It is proposed that sensible heat storage in a packed bed of rock, with air as heat transfer medium, is suitable at temperatures of 500 – 600 °C. To determine if this concept is technically feasible and economically competitive with existing storage, rock properties, packed bed pressure drop and thermal characteristics must be understood. This work addresses these topics.
No previously published data is available on thermal cycling resistance of South African rock, and there is limited data from other countries in the proposed temperature range for long-term thermal cycling, so samples were thermally cycled. There is rock which is suitable for thermal storage applications at temperatures of 500 – 600 °C. New maps of South Africa showing where potentially suitable rock is available were produced. Dolerite, found extensively in the Karoo, is particularly suitable.
Friction factors were measured for beds of different particles to determine the importance of roughness, shape, and packing arrangement. Five sets of rock were also tested, giving a combined dataset broader than published in any previous study. Limitations of existing correlations are shown. The friction factor is highly dependent on particle shape and, in the case of asymmetric particles, packing method. The friction factor varied by up to 70 % for crushed rock depending on the direction in which it was poured into the test section, probably caused by the orientation of the asymmetric rock relative to the air flow direction. This has not been reported before for rock beds. New isothermal correlations using the volume equivalent particle diameter are given: they are within 15 % of the measurements. This work will allow a techno-economic evaluation of crushed rock beds using more accurate predictions of pumping power than could previously be made.
Thermal tests below 80 °C show that bed heat transfer is insensitive to particle shape or type. A heat transfer correlation for air in terms of the volume equivalent diameter was formulated and combined with the E-NTU method. The predicted bed outlet temperatures are within 5 °C of the measurements for tests at 530 °C, showing that the influence of thermal conduction and radiation can be reasonably negligible for a single charge/discharge cycle at mass fluxes around 0.2 kg/m2s.
A novel method for finding the optimum particle size and bed length is given: The Biot number is fixed, and the net income (income less bed cost) from a steam cycle supplied by heat from the bed is calculated. A simplified calculation using the method shows that the optimum particle size is approximately 20 mm for bed lengths of 6 – 7 m. Depending on the containment design and cost, the capital cost could be an order of magnitude lower than a nitrate salt system. / AFRIKAANSE OPSOMMING: Gekonsentreerde son-energie kragstasies is n belowende manier om elektrisiteit op te wek, maar hulle is afhanklik van die son as n bron van energie. Om drywing op aanvraag te voorsien moet hulle energie stoor. Tans is termiese stoor – gewoonlik gesmelte sout – hoewel funksioneel, duur, en n goedkoper oplossing word gesoek. Daar word voorgestel dat stoor van voelbare warmte-energie in n gepakte rotsbed met lug as warmteoordrag medium geskik is by temperature van 500 – 600 °C. Om te bepaal of dié konsep tegnies gangbaar en ekonomies mededingend met bestaande stoorstelsels is, moet rotseienskappe, gepakte bed drukval en hitteoordrag verstaan word. Hierdie werk spreek hierdie aspekte aan.
Geen voorheen gepubliseerde data is beskikbaar oor die termiese siklus weerstand van Suid-Afrikaanse rots nie, en daar is beperkte data van ander lande in die voorgestelde temperatuurbereik, dus is monsters onderwerp aan termiese siklusse. Daar bestaan rots wat geskik is vir termiese stoor toepassings by temperature van 500 – 600 °C. Nuwe kaarte van Suid-Afrika is opgestel om te wys waar potensieel geskikte rots beskikbaar is. Doleriet, wat wyd in die Karoo voor kom, blyk om veral geskik te wees.
Wrywingsfaktore is gemeet vir beddens van verskillende partikels om die belangrikheid van grofheid, vorm en pak-rangskikking te bepaal. Vyf rotsstelle is ook getoets, wat n saamgestelde datastel gee wyer as in enige gepubliseerde studie. Beperkings van bestaande korrelasies word aangetoon. Die wrywingsfaktor is hoogs sensitief vir partikelvorm en, in die geval van asimmetriese partikels, pakkings metode. Die wrywingsfaktor het met tot 70 % gevarieer vir gebreekte rots, afhanklik van die rigting waarin dit in die toetsseksie neergelê is. Dit is waarskynlik veroorsaak deur die oriëntasie van die asimmetriese rots relatief tot die lugvloei rigting, en is nie voorheen vir rotsbeddens gerapporteer nie. Nuwe isotermiese korrelasies wat gebruik maak van die volume-ekwivalente partikel deursnee word gegee: hulle voorspel binne 15 % van die gemete waardes. Hierdie werk sal n tegno-ekonomiese studie van rotsbeddens toelaat wat meer akkurate voorspellings van pompdrywing gebruik as voorheen moontlik was.
Termiese toetse onder 80 °C wys dat die warmteoordrag nie baie sensitief is vir partikelvorm en -tipe nie. n Warmte-oordragskorrelasie vir lug in terme van die volume-ekwivalente deursnee is ontwikkel en met die E-NTU-metode gekombineer. Die voorspelde lug uitlaat temperatuur is binne 5 °C van die meting vir toetse by 530 °C. Dit wys dat termiese geleiding en straling redelikerwys buite rekening gelaat kan word vir n enkele laai/ontlaai siklus by massa vloeitempos van omtrent 0.2 kg/m2s.
n Oorspronklike metode vir die bepaling van die optimum partikelgrootte en bedlengte word gegee: Die Biot-getal is vas, en die netto inkomste (die inkomste minus die bed omkoste) van n stoomsiklus voorsien met warmte van die bed
word bereken. n Vereenvoudigde berekening wat die metode gebruik wys dat die optimum grootte en lengte ongeveer 20 mm en 6-7 m is. Afhangende van die behoueringsontwerp en koste, kan die kapitale koste n orde kleiner wees as dié van n gesmelte nitraatsout stelsel
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Modeling, simulation, and analysis of grid connected dish-stirling solar power plantsHoward, Dustin F. 07 July 2010 (has links)
The percentage of renewable energy within the global electric power generation portfolio is expected to increase rapidly over the next few decades due to increasing concerns about climate change, fossil fuel costs, and energy security. Solar thermal energy, also known as concentrating solar power (CSP), is emerging as an important solution to new demands for clean, renewable electricity generation. Dish-Stirling (DS) technology, a form of CSP, is a relatively new player in the renewable energy market, although research in the technology has been ongoing now for nearly thirty years. The first large plant utilizing DS technology, rated at 1.5 MW, came online in January 2010 in Peoria, AZ, and plants rated for several hundred MW are in the planning stages. Increasing capacity of this technology within the utility grid requires extensive dynamic simulation studies to ensure that the power system maintains its safety and reliability in spite of the technological challenges that DS technology presents, particularly related to the intermittency of the energy source and its use of a non-conventional asynchronous generator. The research presented in this thesis attempts to fill in the gaps between the well established research on Stirling engines in the world of thermodynamics and the use of DS systems in electric power system applications, a topic which has received scant attention in publications since the emergence of this technology.
DS technology uses a paraboloidal shaped dish of mirrors to concentrate sunlight to a single point. The high temperatures achieved at the focal point of the mirrors is used as a heat source for the Stirling engine, which is a closed-cycle, external heat engine. Invented by the Scottish clergyman Robert Stirling in 1816, the Stirling engine is capable of high efficiency and releases no emissions, making it highly compatible with concentrated solar energy. The Stirling engine turns a squirrel-cage induction generator, where electricity is delivered through underground cables from thousands of independent, autonomous 10-25 kW rated DS units in a large solar farm.
A dynamic model of the DS system is presented in this thesis, including models of the Stirling engine working gas and mechanical dynamics. Custom FORTRAN code is written to model the Stirling engine dynamics within PSCAD/EMTDC. The Stirling engine and various other components of the DS system are incorporated into an electrical network, including first a single-machine, infinite bus network, and then a larger 12-bus network including conventional generators, loads, and transmission lines. An analysis of the DS control systems is presented, and simulation results are provided to demonstrate the system's steady state and dynamic behavior within these electric power networks. Potential grid interconnection requirements are discussed, including issues with power factor correction and low voltage ride-through, and simulation results are provided to illustrate the dish-Stirling system's capability for meeting such requirements.
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