Enhancing biochar yield by co-pyrolysis of bio-oil with biomass: Impacts of potassium hydroxide addition and air pretreatment prior to co-pyrolysis

Andrei Veksha; Waheed Zaman; David B. Layzell; Josephine M. Hill

首页> 外文期刊>Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies >Enhancing biochar yield by co-pyrolysis of bio-oil with biomass: Impacts of potassium hydroxide addition and air pretreatment prior to co-pyrolysis

【24h】

Enhancing biochar yield by co-pyrolysis of bio-oil with biomass: Impacts of potassium hydroxide addition and air pretreatment prior to co-pyrolysis

机译：通过生物油与生物质的共热解提高生物炭的收率：共热解之前添加氢氧化钾和空气预处理的影响

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

The influence of KOH addition and air pretreatment on co-pyrolysis (600 °C) of a mixture of bio-oil and biomass (aspen wood) was investigated with the goal of increasing biochar yield. The bio-oil was produced as a byproduct of the pyrolysis of biomass and recycled in subsequent runs. Co-pyrolysis of the biomass with the recycled bio-oil resulted in a 16% mass increase in produced biochar. The yields were further increased by either air pretreatment or KOH addition prior to co-pyrolysis. Air pretreatment at 220 °C for 3 h resulted in the highest mass increase (32%) compared to the base case of pyrolysis of biomass only. No synergistic benefit was observed by combining KOH addition with air pretreatment. In fact, KOH catalyzed reactions that increased the bed temperature resulting in carbon loss via formation of CO and CO_2.

机译：以增加生物炭产量为目标，研究了KOH添加和空气预处理对生物油和生物质（aspen木材）混合物的共热解（600°C）的影响。生物油是生物质热解的副产物，并在随后的运行中循环使用。生物质与回收的生物油的共热解使生产的生物炭质量增加了16％。在共热解之前，通过空气预处理或添加KOH可以进一步提高产量。与仅热解生物质的基本情况相比，在220°C的空气中进行3小时的空气预处理可获得最大的质量增加（32％）。通过将KOH添加与空气预处理相结合，未观察到协同优势。实际上，KOH催化的反应增加了床温，并通过形成CO和CO_2导致碳损失。

著录项

来源
《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies》 |2014年第null期|共7页
作者
Andrei Veksha; Waheed Zaman; David B. Layzell; Josephine M. Hill;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
Air pretreatment; Bio-oil; Biochar; Potassium hydroxide; Pyrolysis;

机译：空气预处理;生物油;生物炭;氢氧化钾;热解;

相似文献

外文文献
中文文献
专利

1. Enhancing biochar yield by co-pyrolysis of bio-oil with biomass: Impacts of potassium hydroxide addition and air pretreatment prior to co-pyrolysis [J] . Andrei Veksha, Waheed Zaman, David B. Layzell, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2014,第Null期

机译：通过生物油与生物质的共热解提高生物炭的收率：共热解之前添加氢氧化钾和空气预处理的影响
2. Combining torrefaction pretreatment and co-pyrolysis to upgrade biochar derived from bio-oil distillation residue and walnut shell [J] . Zhu Xiefei, Luo Zejun, Diao Rui, Energy Conversion & Management . 2019,第Nova期

机译：焙干预处理和共热解相结合，可提高生物油蒸馏残渣和核桃壳衍生的生物炭的纯度
3. CO_2-assisted co-pyrolysis of textile dyeing sludge and hyperaccumulator biomass: Dynamic and comparative analyses of evolved gases, bio-oils, biochars, and reaction mechanisms [J] . Song Yueyao, Hu Jinwen, Liu Jingyong, Journal of Hazardous Materials . 2020,第Deca5期

机译：CO_2辅助纺织染色污泥和超读物剂生物量的共热分解：动态和对比分析的进化气体，生物油，生物炸植物和反应机制
4. Influence of Natural and H-Beta Zeolites on Yield and Composition of Non-Polar Fraction of Bio-Oil in Slow Co-Pyrolysis of Biomass and Polypropylene [C] . DIJAN Supramono, SYAFIRA Deani Tiaradiba Annual Symposium on Solid Waste Refinery . 2020

机译：天然和H-β沸石对生物量缓慢共热分解的生物油中非极性馏分产率和组成的影响
5. Characterization of Biochar Produced by Pyrolysis of Biomass and Co-Pyrolysis of Biomass and Agricultural Mulch Film [D] . Cisse, Ibrahim. 2021

机译：生物质热解和生物质和农产覆膜的共热分解生物炭的表征
6. 1 Flash co-pyrolysis of biomass with polylactic acid part 1. Influence on bio-oil yield and heating value [O] . T. Cornelissen, J. Yperman, G. Reggers, 2014

机译：1生物质与聚乳酸的快速共热解第1部分。对生物油产率和热值的影响

Enhancing biochar yield by co-pyrolysis of bio-oil with biomass: Impacts of potassium hydroxide addition and air pretreatment prior to co-pyrolysis

摘要

著录项

相似文献

相关主题

期刊订阅