Bio-oil production by pyrolysis of Azolla filiculoides and Ulva fasciata macroalgae

IF 3.1 Q2 ENVIRONMENTAL SCIENCES

GLOBAL JOURNAL OF ENVIRONMENTAL SCIENCE AND MANAGEMENT-GJESM Pub Date : 2021-02-07 DOI:10.22034/GJESM.2021.03.04

Sara Pourkarimi, A. Alizadehdakhel

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引用次数: 7

Abstract

BACKGROUND AND OBJECTIVES: In this study, the characteristics of bio-oil samples produced through slow pyrolysis of two different macroalgae, i.e. Azolla ‎filiculoides and Ulva fasciata, at optimized conditions were determined and compared. METHODS: For this purpose, the effects of temperature (300-500 °C), carrier gas flow rate (0.2-0.8 L/min), ‎and heating rate (10-20 °C/min) on the final bio-oil production were optimized using response ‎surface methodology established by a central composite design. FINDINGS: The highest bio-oil yield from U. fasciata (34.29%) was obtained at the temperature of 500 °C, ‎‎ nitrogen flow rate of 0.2 L/min, and heating rate of 10 °C/min. As for A. filiculoides feedstock, the highest bio-oil ‎yield (30.83%) was achieved at the temperature of 461 °C, nitrogen flow rate of 0.5 L/min, and heating rate of 20 °C/min. Both bio-oil samples contained ‎saturated and unsaturated hydrocarbons. However, the average hydrocarbon chain length was ‎relatively shorter in U. fasciata bio-oil (C4-C16) than in bio-oil from A. filiculoides (C6-C24). Although both bio-oils had almost ‎identical heating values, the U. fasciata bio-oil showed more appropriate properties, i.e. lower viscosity and ‎density. Furthermore, the energy recovery from U. fasciata pyrolysis was calculated as 56.6% which was ‎almost 1.5 times higher than the energy recovery from A. filiculoides pyrolysis. CONCLUSION: The results indicated that U. fasciata bio-oil, with its superior characteristics, could be proposed as a promising candidate for application in diesel-based automotive industries. ‎ ==========================================================================================COPYRIGHTS©2021 The author(s). This is an open access article distributed under the terms of the Creative Commons Attribution (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, as long as the original authors and source are cited. No permission is required from the authors or the publishers.==========================================================================================

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杜鹃花和大叶藻热解制备生物油的研究

背景与目的:在优化条件下，对两种不同的大型藻类——绿豆藻(Azolla filiculoides)和蹼状藻(Ulva fasciata)缓慢热解制备的生物油样品的特性进行了研究和比较。方法:采用中心复合设计建立的响应面法，优化温度(300 ~ 500℃)、载气流速(0.2 ~ 0.8 L/min)、升温速率(10 ~ 20℃/min)对最终生物油产量的影响。结果:在温度为500℃、氮气流速为0.2 L/min、加热速率为10℃/min的条件下，板叶藤生物油得率最高，为34.29%;在温度为461℃、氮气流量为0.5 L/min、加热速率为20℃/min的条件下，黄连的生物油收率最高，为30.83%。两种生物油样品均含有饱和烃和不饱和烃。然而，花叶藻生物油(c4 ~ c16)的平均烃链长度相对短于花叶藻生物油(c6 ~ c24)。尽管这两种生物油的热值几乎相同，但筋膜藻生物油表现出更合适的特性，即更低的粘度和密度。结果表明，花楸热解的能量回收率为56.6%，是花楸热解能量回收率的1.5倍。结论:鸢尾生物油具有优良的特性，在柴油汽车工业中具有广阔的应用前景。‎ ========================================================================================== 版权©2021年作者(年代)。这是一篇根据知识共享署名协议(CC BY 4.0)发布的开放获取文章，该协议允许在任何媒体上不受限制地使用、分发和复制，只要引用原作者和来源。不需要许可从作者和出版商 .==========================================================================================

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来源期刊

GLOBAL JOURNAL OF ENVIRONMENTAL SCIENCE AND MANAGEMENT-GJESM ENVIRONMENTAL SCIENCES-

CiteScore

7.90

自引率

2.90%

发文量

审稿时长

8 weeks