Investigation Of Pressurized Entrained Flow Kraft Black Liquor Gasification In An Industrially Relevant Environment PDF Download
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| Release | : 2008 |
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Download Investigation of Pressurized Entrained-Flow Kraft Black Liquor Gasification in an Industrially Relevant Environment Book in PDF, ePub and Kindle
The University of Utah's project 'Investigation of Pressurized Entrained-Flow Kraft Black Liquor Gasification in an Industrially Relevant Environment' (U.S. DOE Cooperative Agreement DE-FC26-04NT42261) was a response to U.S. DOE/NETL solicitation DE-PS36-04GO94002, 'Biomass Research and Development Initiative' Topical Area 4-Kraft Black Liquor Gasification. The project began September 30, 2004. The objective of the project was to improve the understanding of black liquor conversion in high pressure, high temperature reactors that gasify liquor through partial oxidation with either air or oxygen. The physical and chemical characteristics of both the gas and condensed phase were to be studied over the entire range of liquor conversion, and the rates and mechanisms of processes responsible for converting the liquor to its final smelt and syngas products were to be investigated. This would be accomplished by combining fundamental, lab-scale experiments with measurements taken using a new semi-pilot scale pressurized entrained-flow gasifier. As a result of insufficient availability of funds and changes in priority within the Office of Biomass Programs of the U.S. Department of Energy, the research program was terminated in its second year. In total, only half of the budgeted funding was made available for the program, and most of this was used during the first year for construction of the experimental systems to be used in the program. This had a severe impact on the program. As a consequence, most of the planned research was unable to be performed. Only studies that relied on computational modeling or existing experimental facilities started early enough to deliver useful results by the time to program was terminated Over the course of the program, small scale (approx. 1 ton/day) entrained-flow gasifier was designed and installed at the University of Utah's off-campus Industrial Combustion and Gasification Research Facility. The system is designed to operate at pressures as high as 32 atmospheres, and at temperatures as high as 1500 C (2730 F). Total black liquor processing capacity under pressurized, oxygen-blown conditions should be in excess of 1 ton black liquor solids per day. Many sampling ports along the conversion section of the system will allow detailed analysis of the environment in the gasifier under industrially representative conditions. Construction was mostly completed before the program was terminated, but resources were insufficient to operate the system. A system for characterizing black liquor sprays in hot environments was designed and constructed. Silhouettes of black liquor sprays formed by injection of black liquor through a twin fluid (liquor and atomizing air) nozzle were videoed with a high-speed camera, and the resulting images were analyzed to identify overall characteristics of the spray and droplet formation mechanisms. The efficiency of liquor atomization was better when the liquor was injected through the center channel of the nozzle, with atomizing air being introduced in the annulus around the center channel, than when the liquor and air feed channels were reversed. Atomizing efficiency and spray angle increased with atomizing air pressure up to a point, beyond which additional atomizing air pressure had little effect. Analysis of the spray patterns indicates that two classifications of droplets are present, a finely dispersed 'mist' of very small droplets and much larger ligaments of liquor that form at the injector tip and form one or more relatively large droplets. This ligament and subsequent large droplet formation suggests that it will be challenging to obtain a narrow distribution of droplet sizes when using an injector of this design. A model for simulating liquor spray and droplet formation was developed by Simulent, Inc. of Toronto. The model was able to predict performance when spraying water that closely matched the vendor specifications. Simulation of liquor spray indicates that droplets on the order 200-300 microns can be expected, and that higher liquor flow will result in better distribution of liquor in the reactor.
| Author | : Pratima Bajpai |
| Publisher | : Elsevier |
| Total Pages | : 103 |
| Release | : 2014-03-06 |
| Genre | : Technology & Engineering |
| ISBN | : 0081000154 |
Download Black Liquor Gasification Book in PDF, ePub and Kindle
Black Liquor Gasification (BLG) is a first of its kind to guide chemical engineers, students, operators of paper plants, technocrats, and entrepreneurs on practical guidelines and a holistic techno-enviro-economic perspective applicable to their future or existing projects based on the treatment of black liquor for energy production. BLG describes the gasification process as a more efficient alternative to current processes for the conversion of black liquor biomass into energy. BLG operates largely in sync with other methods to improve pulp-making efficiency. This book explains how BLG offers a way to generate electricity and to reclaim pulping chemicals from black liquor, and why BLG would replace the Tomlinson recovery boiler for the recovery of spent chemicals and energy. Describes the utilization of black liquor as a source of energy Provides a detailed account of black liquor gasification processes for the production of energy and chemicals from black liquor Provides guidelines to chemical engineers for the treatment of black liquor
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| Total Pages | : 2 |
| Release | : 1999 |
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Download Fundamental Study of Black Liquor Gasification Kinetics Using a Pressurized Entrained-flow Reactor (PEFR). Quarterly Progress Report for the Period July 1999 to September 1999 Book in PDF, ePub and Kindle
The goal of the program is to identify the optimal operating window for black liquor gasification. The goals during this year are to prepare the PEFR for operation, conduct a series of preliminary screening tests to bracket BLG operating conditions, and develop a process model that can guide identification of the optimal operating window.
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| Total Pages | : 124 |
| Release | : 2004 |
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Download Research Note FPL. Book in PDF, ePub and Kindle
| Author | : Narongsak Jivakanun |
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| Total Pages | : 324 |
| Release | : 1993 |
| Genre | : Sulfate waste liquor |
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Download Modeling of Sulfate Reduction in an Entrained-flow Black Liquor Gasifier Book in PDF, ePub and Kindle
Black liquor gasification is one of the promising alternatives to eliminate the drawbacks of the conventional recovery unit of the kraft process. A numerical model has been developed to simulate an industrial pilot scale entrained-flow gasifier currently operating at Tampere, Finland. The objective of the model is to investigate the effect of the key operating parameters on the efficiency of sulfate reduction during black liquor gasification. The results of the sensitivity analysis indicates that reduction is dependent of the ratio of the amount of carbon in black liquor to the amount of air being fed into the system, the reactor temperature and the initial particle size. Decreasing the air ratio can improve the efficiency of reduction. The rates of both reduction and carbon gasification increase with increasing in temperature. Higher reduction can be obtained by increasing the initial particle size. However, the values of those parameters need to be optimized based on the desired degree of sulfate reduction and the completion of carbon conversion. Economic considerations such as the length of the gasifier needed to achieve both high reduction efficiency and carbon conversion also need to be considered when selecting operating conditions.
| Author | : James L. Howard |
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| Total Pages | : 14 |
| Release | : 2005 |
| Genre | : Forest products |
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Download U.S. Forest Products Annual Market Review and Prospects, 2001-2005 Book in PDF, ePub and Kindle
| Author | : Kevin Whitty |
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| Total Pages | : 75 |
| Release | : 2003 |
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Download INVESTIGATION OF FUEL CHEMISTRY AND BED PERFORMANCE IN A FLUIDIZED BED BLACK LIQUOR STEAM REFORMER. Book in PDF, ePub and Kindle
The University of Utah project ''Investigation of Fuel Chemistry and Bed Performance in a Fluidized Bed Black Liquor Steam Reformer'' (DOE award number DE-FC26-02NT41490) was developed in response to a solicitation for projects to provide technical support for black liquor and biomass gasification. The primary focus of the project is to provide support for a DOE-sponsored demonstration of MTCI's black liquor steam reforming technology at Georgia-Pacific's paper mill in Big Island, Virginia. A more overarching goal is to improve the understanding of phenomena that take place during low temperature black liquor gasification. This is achieved through five complementary technical tasks: (1) construction of a fluidized bed black liquor gasification test system, (2) investigation of bed performance, (3) evaluation of product gas quality, (4) black liquor conversion analysis and modeling and (5) computational modeling of the Big Island gasifier. Four experimental devices have been constructed under this project. The largest facility, which is the heart of the experimental effort, is a pressurized fluidized bed gasification test system. The system is designed to be able to reproduce conditions near the black liquor injectors in the Big Island steam reformer, so the behavior of black liquor pyrolysis and char gasification can be quantified in a representative environment. The gasification test system comprises five subsystems: steam generation and superheating, black liquor feed, fluidized bed reactor, afterburner for syngas combustion and a flue gas cooler/condenser. The three-story system is located at University of Utah's Industrial Combustion and Gasification Research Facility, and all resources there are available to support the research.
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| Total Pages | : 14 |
| Release | : 2000 |
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Download Fundamental Study of Black Liquor Gasification Kinetics. Quarterly Progress Report for the Period October 1999 to December 1999 Book in PDF, ePub and Kindle
The overall objective of this research is to evaluate the kinetics of gasification of kraft black liquor under laboratory conditions simulating pressurized, oxygen-blown gasification. The significant independent variables are gasifier temperature, black liquor composition particle size, and particle residence time. The authors will quantify their impact on the concentration of major and trace gas phase species, as well as the composition of condensed phase inorganic products, including specification of the Na- and S-containing compounds and overall carbon conversion.
| Author | : Nanan Pathania |
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| Release | : 2001 |
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Download A Study of Composition of Kraft Recovery Boiler Carryover Particles Using an Entrained Flow Reactor Book in PDF, ePub and Kindle
Carryover (unburned black liquor, char or smelt particles entrained in the flue gas during black liquor combustion) adheres to the heat transfer tube surfaces and forms deposits in kraft recovery boilers. Carryover deposition depends greatly on its liquid content, which, in turn, is a function of composition. Understanding the carryover composition and the parameters affecting the composition is important for optimizing recovery boiler performance. This work examined the effects of black liquor particle size, gas oxygen concentration, and the chloride and sulfur contents of black liquor on carryover composition. Carryover particles were produced using an Entrained Flow Reactor. The results show that the char, chloride, potassium and sulfide contents of carryover increased while the sulfate content decreased with an increase in black liquor particle size, and with a decrease in gas oxygen concentration. Chloride and potassium contents in carryover particles were less than those in the black liquor.
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| Release | : 2005 |
| Genre | : Biomass gasification |
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Download Hydroxide Formation and Carbon Species Distributions During High-temperature Kraft Black Liquor Gasification Book in PDF, ePub and Kindle
This work focuses on high-temperature kraft black liquor gasification in the presence of H2O and CO2 in a laboratroy-scale Laminar Entrained-Flow Reactor (LEFR). The effects of gasification conditions on hydroxide formation, carbon gasification rate, carbonate carbon and fixed carbon levels, alkali metal and sulfur species retention, and char yield were studied at atmospheric pressure and at 900-1000°C, and at residence times of 0.5-1.5 s. The results suggest that carbon gasification rates may be enhanced in the presence of H2O and CO2, with fixed carbon conversions of up to 95% at the earliest residence times at 1000°C. CO2 and H2O gasifying agents cause a significant increase in carbonate formation, with 22% of the initial carbon input as carbonate compared to 16% with one falsifying agent. Carbonate levels increase to a high level and then decrease at 900°C, but at 1000°C, carbonate decomposition processes are more dominant and cause lower levels of carbonate even at early residence times. The results show that alkali metal retention is high until vaporization occurs after 1.4 s at 900°C and at early residence times at 1000°C. Moreover, the results show that sulfur retention is an exothermic process, as sulfur capture increases with temperature. At 900°C, no hydroxide is produced until after 1.4 s, but at 1000°C, hydroxide appears to form readily even at the earliest residence times studied. The char produces a maximum mole percent of 18-19% hydroxide, starting at intermediate residence times at 1000°C. Generally, hydroxide is not produced until fixed carbon conversions approach 95%. The results can be explained in terms of the interactions of phenolate and carboxylate catalytic species in the char product. The hydroxide formation results suggest that it may be possible to develop a gasification-causticization process that does not require external chemicals and would make the energy-efficient and environmentally friendly black liquor gasification technology an economic reality.
