Temperature Measurement in WTE Boilers Using  Suction Pyrometers

Rinaldi, Fabio; Najafi, Behzad

doi:10.3390/s131115633

Cited by 29 publications

(19 citation statements)

References 15 publications

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“…Nonetheless the fundamen-tal difficulty is due to the fact that every temperature sensor introduced into the furnace undergoes a heat transfer with its surroundings not only through convection, but also through radiation, which can considerably distort the measured results. For this reason alternative measurements methods have been developed, including optical methods (optical pyrometry) [7] or acoustic methods (acoustic pyrometry) [8][9][10]. An acoustic temperature field measurement (AGAM) is used in the boiler industry.…”

Section: Measurement Of Exhaust Gas Temperature Distribution Within Amentioning

confidence: 99%

Investigation of exhaust gas temperature distribution within a furnace of a stoker fired boiler as a function of its operating parameters

Krawczyk¹,

Badyda²,

Szczygieł³

et al. 2015

Archives of Thermodynamics

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Distribution of the exhaust gas temperature within the furnace of a grate boiler greatly depends on its operating parameters such as output. It has a considerably different character than temperature distributions in other types of boilers (with pulverised or fluidised bed), as it varies considerably across the chamber. Results presented in this paper have been obtained through research of a grate-fired hot water boiler with a nominal rating of some 30 MW. Measurements have been taken by introducing temperature sensors into prearranged openings placed in the boiler side walls. Investigation has been carried out for different output levels. Tests involved thermocouples in ceramic coating and aspirated thermocouples. The latter were used to eliminate influence of radiative heat transfer on measured results. Values obtained with both methods have been cross-checked.

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Section: Measurement Of Exhaust Gas Temperature Distribution Within Amentioning

confidence: 99%

Investigation of exhaust gas temperature distribution within a furnace of a stoker fired boiler as a function of its operating parameters

Krawczyk¹,

Badyda²,

Szczygieł³

et al. 2015

Archives of Thermodynamics

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“…The energy and mass balances including these two streams can be performed by knowing that their mixture will produce superheated steam at 370 °C. An accurate measurement of the steam temperatures at different loads would allow to build the efficiency curves of the boilers but it was supposed that, under different load conditions, the boiler was run with the same excess of air and that it operated with the same efficiency [14]. Therefore, it is reasonable to assume that the efficiency of the thermal exchange inside the boiler is constant.…”

Section: Cogenerationmentioning

confidence: 99%

Challenges in Bioenergy Production from Sugarcane Mills in Developing Countries: A Case Study

2014

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Worldwide energy policies are moving towards a reduction of fossil fuels' share in the energy mix and to invest in renewable and green energy sources. Biomass is one of these, and it represents, in the form of sugarcane, a strategic source in Colombia, especially in the Valle del Cauca. In this region, the sugarcane industry is able to convert the energy content of the cane into different energy products, such as ethanol, electricity, and high-pressure steam, which are cogenerated via bagasse combustion. In this work, the case of a sucrose and ethanol production plant, which mills ten thousand tons of sugarcane per day, is considered. A tailor-made computational model was developed to assess the energy and material process balances in order to estimate the effect of different operating conditions on cogeneration boilers and turbines, and to optimize the overall process efficiency. The current situation was modeled with good precision from the developed model. Likewise, the concept of "Renewable Efficiency" was introduced to explain the degree of green power, which a process plant is able to produce. Consequently, new innovative solutions and process layouts were proposed in order to increase their renewable efficiency. With the new configurations, a convenient energy surplus of up to 33 MW can be reached, which could be sold in the national electricity grid, representing long-term interesting economic benefits for the company. OPEN ACCESSEnergies 2014, 7 5875

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“…Number of available test ports pose a technical limitation. Using six pyrometers simultaneously has been reported [14], which would probably not be enough for the crosssection of a large scale furnace.…”

Section: Introductionmentioning

confidence: 98%

“…Traditionally used suction pyrometry is extremely accurate. However, single probe provides only local information [14]. As the combustion chamber is a dynamic and turbulent environment, representative temperature distribution in the furnace cross-section can be obtained only by performing simultaneous measurements.…”

Section: Introductionmentioning

confidence: 99%

A validation of computational fluid dynamics temperature distribution prediction in a pulverized coal boiler with acoustic temperature measurement

Modliński

Madejski²,

Janda³

et al. 2015

Energy

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Temperature Measurement in WTE Boilers Using Suction Pyrometers

Cited by 29 publications

References 15 publications

Investigation of exhaust gas temperature distribution within a furnace of a stoker fired boiler as a function of its operating parameters

Investigation of exhaust gas temperature distribution within a furnace of a stoker fired boiler as a function of its operating parameters

Challenges in Bioenergy Production from Sugarcane Mills in Developing Countries: A Case Study

A validation of computational fluid dynamics temperature distribution prediction in a pulverized coal boiler with acoustic temperature measurement

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