26 resultados para caloric value
em Chinese Academy of Sciences Institutional Repositories Grid Portal
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神农架地区的巴山冷杉(Abies fargesii)林是秦巴山地重要的森林生态系统类型,长期以来其在水土保持、水源涵养、林产品供给等方面的生态服务功能受到了广泛的重视,近年来该类森林的生物地球化学循环正成为关注的热点。本文以神农架巴山冷杉天然林为研究对象,从其凋落物的数量、养分、能量3个方面入手,着重研究1)凋落物组成及其凋落量的月变化模式;2)凋落物养分含量及养分年归还量的特征;3)凋落物的能流量及其月变化模式。研究表明: 巴山冷杉天然林的年凋落量为5702.99kg.hm-2,处于亚热带森林年凋落量的范围内;巴山冷杉林的凋落物组成比较丰富,主要有落叶、落枝、球花、球果和其它五部分,其中以落叶为多,占总凋落量的46.00%;凋落量的月变化模式呈双峰型,分别在2006年10-11月和2007年4-5月达到峰值。 巴山冷杉林凋落物养分含量的大小顺序为:N>K>Ca>P>Mg;N、P、K、Ca、Mg的年归还量分别为:39.1063 kg.hm-2、4.5346 kg.hm-2、13.4367 kg.hm-2、5.4965 kg.hm-2、0.0911 kg.hm-2,以N的年归还量最多;就凋落物各组分的养分年归还量而言,落叶的养分归还量远远大于其余组分的养分归还量,占总归还量的52.65%。因此,不论凋落量还是养分归还量,巴山冷杉林凋落物中的落叶都占有绝对的优势。 在巴山冷杉林凋落物各组分中,干重热值介于20.60 KJ/g 至22.70 KJ/g之间,灰分浓度介于1.38%至5.94%之间,去灰分热值介于21.34 KJ/g至23.55KJ/g之间,充分表明了灰分对热值的影响。在各组分中,无论是干重热值还是去灰分热值,均以落叶的热值最高。从整年来看,落叶的热值在2006年10-11月和2007年6-7月较高。巴山冷杉林通过凋落物的年能流量为 12500.96 KJ.m-2,以落叶能流量最大,占总能流量的47.72%。通过计算凋落物的能流量占太阳有效辐射的百分数可以得出太阳辐射进入凋落物的转化效率,巴山冷杉林凋落物的能量转化效率为0.61%,这在亚热带和热带森林类型中属于中等水平。
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能量流动、物质循环和信息传递共同构成了生态系统三大功能。能量是维持生态系统功能与过程的动力,Jordan(1971)认为能量比干物质更能反映出群落对自然资源(特别是太阳能)的利用情况。Long(1934)率先用热值来表示植物所含能量的多少,此后关于植物热值的研究工作逐渐展开。我国的植物热值研究始于20世纪80年代(杨福囤等,1983;祖元刚等,1986),主要集中在海南(林益明等,2000)、福建(林益明等,2004)、广东(任海等,1999)和浙江(郝朝运等,2006)等热带亚热带植物群落以及内蒙古羊草草原(鲍雅静等,2003),但有关黄土高原地区的植被热值研究尚未见报道。子午岭林区是黄土高原主要的天然次生林区,其植被主要是在弃耕地基础上逐渐恢复起来的(邹厚远等,2002)。由于自然因素与人为因素的影响,子午岭的植被在恢复时间上存在较大差异,形成了处于不同演替阶段的各种植被群落类型。本研究选取的6个代表性植被群落分别是沙棘(Hippophae rhamnoides)群落、山杨(Populus davidiana)群落、白桦(Betula platyphylla)群落、油松(Pinus tabulaeform...
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测定了蔷薇科植物美人梅、樱花和木兰科植物白玉兰、广玉兰不同组分的热值、养分和灰分含量,探讨4种植物不同发育阶段根系、枝干和叶等器官的热值分配特征及其影响因子.结果表明:4种植物不同组分干质量热值和去灰分热值在17.02~21.93 kJ.g-1和18.42~22.57 kJ.g-1之间;叶片和细根具有较高的干质量热值和去灰分热值,去灰分热值随着根系和茎干(枝)的发育呈减小趋势.美人梅和樱花的干质量热值和去灰分热值总体上高于白玉兰和广玉兰.细根干质量热值和去灰分热值与其养分和灰分含量呈极显著相关(P<0.01).随着根系的发育,干质量热值和去灰分热值与有机碳含量的相关性逐渐降低,不同器官干质量热值与全氮含量相关性最强.
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Great differences between municipal solid wastes(MSW)produced at different places and different times in terms of such parameters as physical ingredient and heating value lead to difficulty in effective handling of MSW. In this paper, ingredient, heating value and their temporal varying trends of typical MSW in Beijing were continuously measured and analyzed. With consideration of the process in pyrolysis and incineration, correlation between physical ingredients and heating values was induced, favorable for evaluation of heating value needed in handling of MSW from simple analysis of physical ingredients of it.
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We outline a procedure for obtaining solutions of certain boundary value problems of a recently proposed theory of gradient elasticity in terms of solutions of classical elasticity. The method is applied to illustrate, among other things, how the gradient theory can remove the strain singularity from some typical examples of the classical theory.
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The convective--diffusion equation is of primary importance in such fields as fluid dynamics and heat transfer hi the numerical methods solving the convective-diffusion equation, the finite volume method can use conveniently diversified grids (structured and unstructured grids) and is suitable for very complex geometry The disadvantage of FV methods compared to the finite difference method is that FV-methods of order higher than second are more difficult to develop in three-dimensional cases. The second-order central scheme (2cs) offers a good compromise among accuracy, simplicity and efficiency, however, it will produce oscillatory solutions when the grid Reynolds numbers are large and then very fine grids are required to obtain accurate solution. The simplest first-order upwind (IUW) scheme satisfies the convective boundedness criteria, however. Its numerical diffusion is large. The power-law scheme, QMCK and second-order upwind (2UW) schemes are also often used in some commercial codes. Their numerical accurate are roughly consistent with that of ZCS. Therefore, it is meaningful to offer higher-accurate three point FV scheme. In this paper, the numerical-value perturbational method suggested by Zhi Gao is used to develop an upwind and mixed FV scheme using any higher-order interpolation and second-order integration approximations, which is called perturbational finite volume (PFV) scheme. The PFV scheme uses the least nodes similar to the standard three-point schemes, namely, the number of the nodes needed equals to unity plus the face-number of the control volume. For instanc6, in the two-dimensional (2-D) case, only four nodes for the triangle grids and five nodes for the Cartesian grids are utilized, respectively. The PFV scheme is applied on a number of 1-D problems, 2~Dand 3-D flow model equations. Comparing with other standard three-point schemes, The PFV scheme has much smaller numerical diffusion than the first-order upwind (IUW) scheme, its numerical accuracy are also higher than the second-order central scheme (2CS), the power-law scheme (PLS), the QUICK scheme and the second-order upwind(ZUW) scheme.
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IEECAS SKLLQG
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A novel approach is proposed for the simultaneous optimization of mobile phase pH and gradient steepness in RP-HPLC using artificial neural networks. By presetting the initial and final concentration of the organic solvent, a limited number of experiments with different gradient time and pH value of mobile phase are arranged in the two-dimensional space of mobile phase parameters. The retention behavior of each solute is modeled using an individual artificial neural network. An "early stopping" strategy is adopted to ensure the predicting capability of neural networks. The trained neural networks can be used to predict the retention time of solutes under arbitrary mobile phase conditions in the optimization region. Finally, the optimal separation conditions can be found according to a global resolution function. The effectiveness of this method is validated by optimization of separation conditions for amino acids derivatised by a new fluorescent reagent.
