Bioenergy potential of Kauayan tinik (Bambusa spinosa Roxb.) and Kauayan kiling (Bambusa vulgaris Schrad. ex J.C.Wendl): Culm height section analysis

Advances in Bamboo Science Pub Date : 2025-06-17 DOI:10.1016/j.bamboo.2025.100177

Celine Rose S. Jimenez, Anniver Ryan P. Lapuz, Amando Allan D.M. Bondad, Cheyenne R. Marqueses, Ma. Cecile B. Zamora

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Abstract

This study evaluated the energy potential of two Philippine bamboo species, Bambusa spinosa (known locally as Kauayan tinik) and Bambusa vulgaris (known as Kauayan kiling), by analyzing moisture content, relative density, proximate composition, ash basic oxide composition, gross calorific value and energy density across different culm height sections (bottom, middle and top). Moisture content significantly decreased from bottom to top, while relative density showed the opposite trend, with a strong negative correlation observed, particularly in B. spinosa. Proximate analysis revealed that the bottom and middle sections of both bamboo species had higher volatile matter and fixed carbon, along with lower ash content. In both bamboo species, the ash contained more CaO than MnO and Fe₂O₃, while the top section of the culm had the lowest levels of all identified basic oxide components. This top section also exhibited the highest energy density, suggesting greater potential suitability for biomass energy generation.

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Kauayan tinik （Bambusa spinosa Roxb.）和Kauayan kiling （Bambusa vulgaris Schrad.）的生物能源潜力。例j.c.m endl): Culm高度剖面分析

本研究通过分析不同竿高段（底部、中部和顶部）的水分含量、相对密度、近似组成、灰分碱性氧化物组成、总热值和能量密度，评估了两种菲律宾竹种竹（Bambusa spinosa）和竹（Bambusa vulgaris）的能量潜力。水分含量自上而下呈显著下降趋势，而相对密度呈相反趋势，且呈较强的负相关，尤以棘叶刺槐最为显著。近似分析表明，两种竹材底部和中部的挥发物和固定碳含量较高，灰分含量较低。两种竹的灰分中CaO含量均高于MnO和Fe2O3，而茎顶部分的碱性氧化物含量最低。顶部部分也显示出最高的能量密度，表明更适合生物质能发电。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Bamboo Science

CiteScore

0.90

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0.00%

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