Combustion Of Low Volatile Coals In Wall Fired Plant - Phase 2: Project Profile
This resource links to a document we hold in our system
Abstract:
<p>Specific objectives for this project are:<bl> <li>To identify the limitations of ignition and flame stability when firing low volatile coal in existing Low NO<sub>x</sub> axial swirl burner technology. <li>To identify the requirements for burner design modifications to extend the lower limit of volatile matter content that can be fired down to 10% or lower.</li> <li>To correlate the fuel ignition stability to measurable fuel properties and develop existing fuel testing methods to provide enhanced fuel ignition/stability characterisation data.</li> <li>To demonstrate the combustion performance of a low volatile coal burner for wall fired furnaces by testing a full-scale burner design in a single burner test facility.</li> </bl></p> <p>Traditionally low volatile coals and anthracites have been utilised in arch fired furnaces (often referred to as 'downshot' firing) so as to overcome the inherent difficulties of achieving stable and efficient combustion which arise from the lack of volatile material in the coal to aid in the ignition, and the low reactivity of the remaining char. The downshot firing system is, however, of higher initial cost than a comparable wall fired system, and if it were possible to utilise low volatile coal in wall fired furnaces there are clear economic benefits both in retrofit applications and for new plant. </p> <p>In Phase 1 of the project the key mechanisms for ignition and stabilisation of low volatile coal flames were identified. A conceptual burner design for firing coals down to 10% VM daf was outlined. In Phase 2 of the project the aim is to develop further a burner design specifically for firing of coals of lower volatile matter content down to ca. 10% daf. It will be necessary to determine more closely the limit of volatile matter on ignition and stability with existing Low NO<sub>x</sub> Burner technology and investigate the actual/relative sensitivity of ignition/stability to variations in the key mechanism parameters identified in Phase 1. The burner design developed in the project will be tested at full-scale</p> This summary provides information on: <bl> <li>Objectives</li> <li>Summary</li> <li>Cost</li> <li>Duration</li> <li>Contractor</li> <li>Collaborators</li> </bl>Publication Year:
2004
Publisher:
Department of Trade and Industry
DOI:
No DOI minted
Author(s):
DTI
Energy Categories
Class Name:
Subclass Name:
Category Name:
Language:
English
File Type:
application/pdf
File Size:
943067 B
Rights:
Rights not recorded
Rights Overview:
Rights are not recorded within the edc, check the data source for details
Further information:
N/A
Region:
United Kingdom
Related Dataset(s):
No related datasets
Related Project(s):
Combustion of Low Volatile Coals in Wall Fired Plant - Phase 2
Related Publications(s):
Combustion Of Low Volatile Coals - Application To Wall Fired Power Plant: Project Summary
