Evaluating the Impact of Meteorological Data Sources on Moisture Prediction Accuracy of Eucalyptus Nitens Log Pile Natural Drying Models

IF 2.7 2区 农林科学 Q1 FORESTRY Croatian Journal of Forest Engineering Pub Date : 2023-01-01 DOI:10.5552/crojfe.2023.1757
M. Strandgard, M. Taskhiri, Paul Turner
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Abstract

Drying forest biomass at roadside can reduce transport costs and greenhouse gas emissions by reducing its weight and increasing its net calorific value. Drying models are required for forest supply chain analysis to determine optimum storage times considering storage costs and returns. The study purpose was to evaluate the impact of the source of meteorological data on the goodness of fit and practical application of Eucalyptus nitens log pile drying models. The study was conducted in Long Reach, NE Tasmania, Australia from the 6th of February to 6th of August 2020. Four data sources were compared: the nearest meteorological station, interpolated meteorological data, a portable weather station, and digital temperature/RH sensors. Predicted moisture content (MC) values from the only previously published E. nitens log pile drying model were also evaluated using the current study data sources as inputs.Log pile MC changes were determined from weight changes measured by placing the study logs on a steel frame bolted to load cells at each corner. As the study was based on debarked logs, dry matter losses were assumed to be negligible. Initial MC of the logs was determined by extracting samples using an electric drill and drying them until constant weight was achieved.Initial log pile drying rates were high with several daily MC losses >2%. Portable weather station data produced the best goodness of fit drying model. The second-best goodness of fit model was based on meteorological station data. From a user acceptability perspective (highest proportion of results within ±5% of measured values), the best model was based on temperature/RH sensor data. Goodness of fit measures for the temperature/RH sensor data model were poorer than for the other data sources, but still acceptable. The published E. nitens log drying model had the poorest results for goodness of fit and user acceptability.In conclusion, portable weather stations are best suited to research trials due to the expense of placing a weather station at each log pile. Drying models based on data from the nearest meteorological station or temperature/RH sensors are best suited for practical applications, such as forest supply chain analysis. Additional benefits could accrue from a forest estate-wide network of low cost temperature/RH sensors potentially supplying data to forest supply chain analysis as well as fire prediction and tree growth models.
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评价气象数据源对桉树原木桩自然干燥模型水分预报精度的影响
在路边烘干森林生物质可以通过减轻其重量和增加其净热值来减少运输成本和温室气体排放。森林供应链分析需要干燥模型,以确定考虑存储成本和回报的最佳存储时间。研究目的是评价气象数据来源对桉树原木桩干燥模型的拟合优度和实际应用的影响。该研究于2020年2月6日至8月6日在澳大利亚塔斯马尼亚州东北部的长河段进行。比较了四种数据来源:最近的气象站、插值的气象数据、便携式气象站和数字温度/RH传感器。预测的含水率(MC)值来自之前唯一发表的E. nitens原木桩干燥模型,也使用当前的研究数据源作为输入进行评估。通过将研究原木放置在钢架上,通过螺栓连接到每个角落的测力元件,可以确定原木桩的含水率变化。由于这项研究是基于去皮原木,干物质损失被认为是可以忽略不计的。通过使用电钻提取样品并将其干燥直至达到恒定重量来确定原木的初始MC。最初的原木桩干燥率很高,每天的MC损失高达2%。便携式气象站数据对干燥模型的拟合效果最好。次优拟合优度模型基于气象站数据。从用户可接受的角度来看(结果在测量值±5%以内的最高比例),最佳模型是基于温度/RH传感器数据的。温度/RH传感器数据模型的拟合优度比其他数据源差,但仍然可以接受。已发表的E. nitens原木干燥模型的拟合优度和用户接受度最差。总之,便携式气象站最适合于研究试验,因为在每个原木堆上放置气象站的费用很高。基于最近气象站或温度/RH传感器数据的干燥模型最适合实际应用,例如森林供应链分析。此外,低成本的温度/湿度传感器网络还可以为森林供应链分析以及火灾预测和树木生长模型提供数据。
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来源期刊
CiteScore
5.20
自引率
12.50%
发文量
23
审稿时长
>12 weeks
期刊介绍: Croatian Journal of Forest Engineering (CROJFE) is a refereed journal distributed internationally, publishing original research articles concerning forest engineering, both theoretical and empirical. The journal covers all aspects of forest engineering research, ranging from basic to applied subjects. In addition to research articles, preliminary research notes and subject reviews are published. Journal Subjects and Fields: -Harvesting systems and technologies- Forest biomass and carbon sequestration- Forest road network planning, management and construction- System organization and forest operations- IT technologies and remote sensing- Engineering in urban forestry- Vehicle/machine design and evaluation- Modelling and sustainable management- Eco-efficient technologies in forestry- Ergonomics and work safety
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