Paper Titles

Simulation Study of the MOA Resistive Leakage Current Detection Method
p.177

Stress and Dynamic Characteristics Analysis of Multilayer Composite Flywheel
p.185

Physical Modeling Test on Gas Rotary Lance for Wire-Feeding
p.190

The Effect of Related Parameters on the Gear Deformation in Oil Quenching
p.195

Experimental Study on the Slagging Characteristics of Biomass Briquette Combustion Equipment
p.201

The Structural Design and Experimental Research of Multi-Level Cushioning Packaging Storage Box
p.207

Nozzle Spraying Model of Combustion Thermal Spray
p.211

Analysis of Deformation of Reflector for RF-Excited CO₂ Laser
p.218

Study on Block Structure Optimization of Single Degree of Freedom Crankshaft Fillet Rolling Machine
p.222

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 655-657Experimental Study on the Slagging Characteristics...

Experimental Study on the Slagging Characteristics of Biomass Briquette Combustion Equipment

Article Preview

Abstract:

By using double-grate biomass briquette combustion equipment, the article carried out the experiments which are the excess air coefficient、 the furnace-tank temperature、 the diameter of fuel 、the thickness of fuel and the operating level influence upon the slagging rate. Then, we found the slagging characteristics of biomass briquette combustion equipment, According to test and investigations, we concluded that the slagging rate of burning double-grate biomass briquette combustion equipment is only about 3% in the best condition; the combustion equipment has low slagging character. Then the author analyzed the slagging process and its influential factors of biomass briquetting combustion. further, the author concluded slag’s form and causes of biomass briquette combustion equipment and we provide a scientific basis for reasonable combustion control、 security and economic combustion.

You might also be interested in these eBooks

Engineering Solutions for Manufacturing Processes

Info:

Periodical:

Advanced Materials Research (Volumes 655-657)

Pages:

201-206

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.655-657.201

Citation:

Cite this paper

Online since:

January 2013

Authors:

Sheng Yong Liu, Guang Shuai Xiang, Wen Ya Li, Cha Jie Su, Bao Hui Wen, Chang He Zhu

Keywords:

Biomass Briquette, Combustion Equipment, Influential Factor, Slagging Characteristic

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] Connor M.A. Energy Recovery and Utilization of Solid Wasters [J]. Nagoya. 1982: 243～260.

[2] Connor M. A, Salazar C.M. Symposium on Forest Products Research International Achievements and the Future [J], Pretoria .S. Africa, 1985, 5: 2～15.

[3] Wang Min, Zhu Junsheng. Technology of Producing Straw Briquette[C]. Technology Exploiture for new fuel seminar corpus, 1992: 50~55.

[4] Zhang Wudi, Song Hongchuan, Wei Xiaokui. The Bright prospect of Biomass Development in the 21st Century [J]. ENERGY OF CHINA, 2001, (5): 25~55.

[5] Yang Zhongcan, Wen Jun, Guo Baoli. Effects of Combustion Modulation on Slag Formation in a Boiler [J]. ZHEJIANG ELECTRIC POWER, Fur, 2005: 34~37.

[6] Cheng Lizhe, Wu Shaohua. Method of Evaluating and Equipment used for measuring Slagging Characteristics of Coal during Combustion, 2001(02). Journal of Harbin Institute of Technology.

[7] Liu Shengyong, Zhang Bailiang, Yang Qunfang. Design and Study of Biomass Briquette Boiler [J]. Transactions of the CSAE, Nov, 2003: 20~22.

[8] Kurkela E; Stahlberg P Removal of particulate and al kali metals for the product gas of a pressurized fluidized bed gasifier (1991).

[9] Thy E; Jenkins B M; Lesher C E High-temperature melting behavior of urban wood fuel ash 1999(13).

DOI: 10.1021/ef980249q

[10] JENKINS B M, BAXTER L L, MILES T R, et al. Combustion properties of biomass [J]. Fuel Processing Technology, 1998, 54: 17~46.

DOI: 10.1016/s0378-3820(97)00059-3

[11] Yan Weiping, Chen Yinying. TK6. Biomass Fuel Slagging Characteristics Analysis and Discriminant [J]. Journal of North China Electric Power University, 2007(1): 49~54.

[12] D VAMVUKAA, E KAKARASB, C E KASTANAKIA. Pyrolysis characteristics and kinetics of biomass residual mixtures with lignite[J]. Fuel, 2003, 82: 1949~(1960).

[13] AYHAN DEMIRBAS. Combustion characteristics of different biomass fuels [J]. Progress in Energy and Combustion Science, 2004, 30: 219~230.

DOI: 10.1016/j.pecs.2003.10.004

[14] S P BHATTACHARYA, M HARTTIG. Control of agglomeration and defluidization burning high –alkali, high-sulfur lignites in a small fluidized bed combustors effect of additive size and type and the role of calcium [J]. Energy & Fuels, 2003, 17: 1014-1021.

DOI: 10.1021/ef020205o

[15] Jiang Yuemei, Su Yi, Feng Lili. The Analysis of the Principles of Boiler Slag-bonding [J]. BOILER TEACHNOLOGY, 2003, 32(6): 9~11.

[16] He Wangfei. Analysis and Study on Slagging Alleviation in Boilers. THERMAL POWER GENERATION, 2003, (11): 32~34.

[17] T R Miles; L.L. Baxter; R.W. Bryers Alkali deposits found in biomass power plants: a preliminary investigation of their extent and nature (1995).

DOI: 10.2172/251288

[18] Fan Fengming, Zhang Bailiang, Li Baoqian. Physical Properties of Briquettes from Coarse Biomass [J]. Journal of Agro-Environment Science, 2005, 24（2）: 398~402.

[19] SHAOJUN XIONG, JAN BURVALL, HAKAN O¨RBERG. Slagging characteristics during combustion of corn stovers with and without kaolin and calcite [J]. Energy & Fuels, 2008, 22：3465~3470.

DOI: 10.1021/ef700718j

[20] SERDAR YAMAN. Pyrolysis of biomass to produce fuels and chemical feedstocks [J]. Energy Conversion and Management, 2004, 45: 651~671.

DOI: 10.1016/s0196-8904(03)00177-8