Spray Combustion Characteristics and Gaseous Emissions of a Wood Derived Fast Pyrolysis Liquid-Ethanol Blend in a Pilot Stabilized Swirl Burner

Tzanetakis, Tommy; Farra, Nicolas; Moloodi, Sina; Lamont, Warren G.; McGrath, Arran; Thomson, Murray J.

doi:10.1021/ef100670z

Cited by 45 publications

(121 citation statements)

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“…At elevated temperatures, the oil becomes increasingly reactive due to its high oxygen content. Secondly, the presence of water and components with a low boiling point can result in vapor formation in the fuel line at high oil temperatures [90,143]. Since these phenomena may lead to problems with the fuel supply, pyrolysis oil is generally preheated in the fuel line to a maximum temperature of 80-90 • C in order to avoid any undesired changes in physical and chemical state [32,67].…”

Section: The Application Of Pyrolysis Oil In Gas Turbinesmentioning

confidence: 99%

“…Solid matter can be formed inside the droplets during the evaporation process [31,126,143], which results in char particles that require long burnout times and potentially cause damage to certain turbine components. However, previous studies [31,126] showed that the charforming tendency of the droplets reduces with higher evaporation rates.…”

Section: The Application Of Pyrolysis Oil In Gas Turbinesmentioning

confidence: 99%

“…The heating rates in these experiments were estimated to be 10 6 and above 10 5 K/min, respectively. In spray combustion experiments only 0.1% of the original mass was obtained as char [143], although it must be noticed that the hot product gases were not quenched so that part of the char could have been consumed via surface reactions. Nevertheless, these studies clearly show that TGA underpredicts the mass release in the upper temperature regions.…”

Section: Pyrolysis Oil Fuel Modelmentioning

confidence: 99%

“…Gas turbines are relatively fuel-flexible and are capable of generating power on both large and small scales, suiting the demands of the future energy system. Pyrolysis oil combustion in gas turbines has therefore been subject of a few experimental studies in the past years [10,95,97,122,138,143]. These studies, conducted in both scientific and industrial test rigs, have shown that the use of pure pyrolysis oil often leads to major problems.…”

Section: Introductionmentioning

confidence: 99%

“…For this reason, pyrolysis oil is not directly suitable for use in combustion devices, including gas turbines. The few attempts that have been made revealed major problems as incomplete combustion, flame instability and coke formation on combustor walls [10,95,97,122,138,143]. Therefore, it is generally concluded that fuel blending or thorough modification of the gas turbine is required for successful application.…”

Section: Introductionmentioning

confidence: 99%

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On the atomization and combustion of liquid biofuels in gas turbines : towards the application of biomass-derived pyrolysis oil

Sallevelt¹

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This document was typeset using L A T E X.Cover image: Structure of a water spray produced by a pressure-swirl atomizer. SummaryThe combustion of liquid biofuels in gas turbines is an efficient way of generating heat and power from biomass. Gas turbines play a major role in the global energy supply and are suitable for a wide range of applications. However, biofuels generally have different properties compared to the conventional fossil fuels. This can lead to various problems when biofuels are directly used in existing installations.This thesis aims to provide better insights into the combustion of biomass-derived pyrolysis oil in gas turbines. Pyrolysis oil can be produced from non-edible biomass via the fast pyrolysis process. In this process, the organic matter is thermally decomposed under mild conditions (~500 • C, 1 atm) through rapid heating in an oxygenfree environment. The vapors formed in the reactor are subsequently condensed to obtain a combustible liquid as the main product. In comparison to the most common biofuels of the first generation, i.e. bioethanol and biodiesel, pyrolysis oil has advantages regarding cost and environmental benefits. From a technical point of view, however, it is a less favorable fuel due properties such as a low heating value, high water content, high acidity, high viscosity, increased surface tension and poor stability. Gas turbines therefore need to be modified before they can successfully operate on pyrolysis oil in pure form. One of the essential tasks is to develop a suitable burner for liquid fuels of such low quality. In this thesis, two research objectives have been formulated to support the development of pyrolysis oil combustion technology.The first objective is to describe the evaporation and flame characteristics of pyrolysis oil. This objective has been addressed by developing a CFD model based on the Euler-Lagrange method in ANSYS Fluent. The modeling approach was first applied to simulate the combustion of ethanol in a modified, downscaled diesel burner of the OPRA OP16 gas turbine rated at 1.9 MW e . This part of the numerical work can be regarded as a first step to validate the model against experiments and literature. Ethanol is a suitable replacement of pyrolysis oil for this purpose, since it is a singlecomponent, nonviscous, volatile and clean burning biofuel that has been studied more extensively in the past. In the next step, the model was further developed to simulate the full-scale combustion of pyrolysis oil in a burner that was recently designed by OPRA for biofuel applications. The complex composition of pyrolysis oil has been approximated by means of a surrogate fuel containing seven components: methanol, water, acetic acid, acetol, phenol, eugenol and levoglucosan. Each comv ponent is known to be present in pyrolysis oil and is used to represent a group of constituents with similar properties. The initial mass fractions of the seven components are chosen such that the surrogate fuel matches the volatility, water content, elemental composition...

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Section: The Application Of Pyrolysis Oil In Gas Turbinesmentioning

confidence: 99%

Section: The Application Of Pyrolysis Oil In Gas Turbinesmentioning

confidence: 99%

Section: Pyrolysis Oil Fuel Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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On the atomization and combustion of liquid biofuels in gas turbines : towards the application of biomass-derived pyrolysis oil

Sallevelt¹

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Fast pyrolysis of coffee ground in a tilted‐slide reactor and characteristics of biocrude oil

Choi

Kim

et al. 2017

Env Prog and Sustain Energy

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Coffee grounds are considered to be a promising biomass resource due to the growth of coffee consumption and their high calorific value. In this study, we produced biocrude oil from coffee grounds in a tilted‐slide reactor, which has been previously used for the fast pyrolysis of woody biomass. Various pyrolysis temperatures were tested and the maximum biocrude oil yield was 59% at the pyrolysis temperature of 550°C with a feeding rate of coffee grounds at 17.7 kg/h. In a multistage condenser, the biocrude oil yields and properties were different in each condenser stage. The higher heating value of the biocrude oil from the primary condenser was 7,157 kcal/kg, which was about 60% higher than that from woody biomass. A phase separation was observed when the biocrude oil was stored at the atmospheric condition, and the biocrude oil viscosity became quite larger than that from woody biomass, which could even impede its flow. The viscosity decreased with increasing temperature and was more sensitive to temperature variations at lower temperatures. Mixing of ethanol also significantly improved viscosity characteristics. © 2017 American Institute of Chemical Engineers Environ Prog, 36: 655–661, 2017

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Bio-Oil and Pyrolytic Oil

2019

Application of Liquid Biofuels to Internal Combustion Engines

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Spray Combustion Characteristics and Gaseous Emissions of a Wood Derived Fast Pyrolysis Liquid-Ethanol Blend in a Pilot Stabilized Swirl Burner

Cited by 45 publications

References 43 publications

On the atomization and combustion of liquid biofuels in gas turbines : towards the application of biomass-derived pyrolysis oil

On the atomization and combustion of liquid biofuels in gas turbines : towards the application of biomass-derived pyrolysis oil

Fast pyrolysis of coffee ground in a tilted‐slide reactor and characteristics of biocrude oil

Bio-Oil and Pyrolytic Oil

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