Characteristics of Pine Gasification Ash and its Effects on Chlamydomonas Debaryana Growth

Rui Li; Bo Zhang; Shuangning Xiu; Hui Wang; Nana Abayie Boakye-Boaten; Bryce M. Holmes; Lijun Wang; Abolghasem Shahbazi

doi:10.15376/BIORES.11.1.1919-1929

Characteristics of Pine Gasification Ash and its Effects on Chlamydomonas Debaryana Growth

Rui Li, Bo Zhang, Shuangning Xiu, Hui Wang, Nana Abayie Boakye-Boaten, Bryce M. Holmes, Lijun Wang, Abolghasem Shahbazi

Natural Resources and Environmental Design

North Carolina Agricultural and Technical State University

Research output: Contribution to journal › Article › peer-review

Abstract

Large amounts of ash, generated from biomass gasification, often contaminate syngas and the ecosystem. This study showed that the ash obtained from the gasification of pine wood was primarily composed of carbon (15% to 25%), minerals (~21%), and oxygen (52% to 63%), and exhibited low surface area (8.4 to 11.2 m²/g). The size of ash particles was between 600 nm and 600 μm. Calcium, potassium, and sodium were the three most common mineral elements in the ash. Leaching tests showed that adding ash to water raised the pH value from 5.7 to between 11.2 and 11.5, and, as time progressed, more mineral elements were released from the ash. For growing microalga Chlamydomonas debaryana in media containing ashes, no toxicity of pine ash was found.

Original language	English
Pages (from-to)	1919-1929
Number of pages	11
Journal	BioResources
Volume	11
Issue number	1
DOIs	https://doi.org/10.15376/BIORES.11.1.1919-1929
State	Published - Feb 2016

Keywords

Biomass ash
Elemental analysis
Gasification
Leaching
Microalgae
Pine wood

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10.15376/BIORES.11.1.1919-1929

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title = "Characteristics of Pine Gasification Ash and its Effects on Chlamydomonas Debaryana Growth",

abstract = "Large amounts of ash, generated from biomass gasification, often contaminate syngas and the ecosystem. This study showed that the ash obtained from the gasification of pine wood was primarily composed of carbon (15\% to 25\%), minerals (\textasciitilde{}21\%), and oxygen (52\% to 63\%), and exhibited low surface area (8.4 to 11.2 m2/g). The size of ash particles was between 600 nm and 600 μm. Calcium, potassium, and sodium were the three most common mineral elements in the ash. Leaching tests showed that adding ash to water raised the pH value from 5.7 to between 11.2 and 11.5, and, as time progressed, more mineral elements were released from the ash. For growing microalga Chlamydomonas debaryana in media containing ashes, no toxicity of pine ash was found.",

keywords = "Biomass ash, Elemental analysis, Gasification, Leaching, Microalgae, Pine wood",

author = "Rui Li and Bo Zhang and Shuangning Xiu and Hui Wang and Boakye-Boaten, \{Nana Abayie\} and Holmes, \{Bryce M.\} and Lijun Wang and Abolghasem Shahbazi",

year = "2016",

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doi = "10.15376/BIORES.11.1.1919-1929",

language = "English",

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T1 - Characteristics of Pine Gasification Ash and its Effects on Chlamydomonas Debaryana Growth

AU - Li, Rui

AU - Zhang, Bo

AU - Xiu, Shuangning

AU - Wang, Hui

AU - Boakye-Boaten, Nana Abayie

AU - Holmes, Bryce M.

AU - Wang, Lijun

AU - Shahbazi, Abolghasem

PY - 2016/2

Y1 - 2016/2

N2 - Large amounts of ash, generated from biomass gasification, often contaminate syngas and the ecosystem. This study showed that the ash obtained from the gasification of pine wood was primarily composed of carbon (15% to 25%), minerals (~21%), and oxygen (52% to 63%), and exhibited low surface area (8.4 to 11.2 m2/g). The size of ash particles was between 600 nm and 600 μm. Calcium, potassium, and sodium were the three most common mineral elements in the ash. Leaching tests showed that adding ash to water raised the pH value from 5.7 to between 11.2 and 11.5, and, as time progressed, more mineral elements were released from the ash. For growing microalga Chlamydomonas debaryana in media containing ashes, no toxicity of pine ash was found.

AB - Large amounts of ash, generated from biomass gasification, often contaminate syngas and the ecosystem. This study showed that the ash obtained from the gasification of pine wood was primarily composed of carbon (15% to 25%), minerals (~21%), and oxygen (52% to 63%), and exhibited low surface area (8.4 to 11.2 m2/g). The size of ash particles was between 600 nm and 600 μm. Calcium, potassium, and sodium were the three most common mineral elements in the ash. Leaching tests showed that adding ash to water raised the pH value from 5.7 to between 11.2 and 11.5, and, as time progressed, more mineral elements were released from the ash. For growing microalga Chlamydomonas debaryana in media containing ashes, no toxicity of pine ash was found.

KW - Biomass ash

KW - Elemental analysis

KW - Gasification

KW - Leaching

KW - Microalgae

KW - Pine wood

UR - https://www.scopus.com/pages/publications/84971297570

U2 - 10.15376/BIORES.11.1.1919-1929

DO - 10.15376/BIORES.11.1.1919-1929

M3 - Article

SN - 1930-2126

VL - 11

SP - 1919

EP - 1929

JO - BioResources

JF - BioResources

IS - 1

ER -

Characteristics of Pine Gasification Ash and its Effects on Chlamydomonas Debaryana Growth

Abstract

Keywords

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