能量溢出与储备碳水化合物合成对瘤胃微生物生长效率影响的研究进展

瘤胃微生物将一些ATP用来维持代谢,剩余的ATP用来进行储备碳水化合物合成和能量溢出（进行无效循环并产热）,因此,瘤胃微生物蛋白质合成效率较低。瘤胃原虫贮存的碳水化合物占绝大部分。在一些细菌纯培养实验中发现有能量溢出,最近研究发现在混合瘤胃菌群中也能发生能量溢出。通过精确测定碳水化合物贮存和能量溢出的量,以及二者对微生物生长效率的影响,可以预测微生物蛋白质产量,制定提高瘤胃微生物蛋白质生产效率的措施。综述了瘤胃微生物能量溢出和糖原储备规律方面的研究进展,以期为估测微生物蛋白质合成量,提高饲料蛋白质利用效率提供参考。     

鱼蟹稻田飞虫捕食装置风光互补供能系统的研究

针对鱼蟹稻田飞虫捕食装置的离网型户外供能需求的问题，着重研究该装置的供能系统方案。基于户外供能合理性要求，采用小型风力发电机和太阳能电池板自主互补发电来进行能源供应；对小型风力发电机和太阳能电池板分别进行Matlab/Simulink建模，着重对叶轮的风能利用系数、叶尖速比和桨距角的相关性进行量化分析，利用单因素分析法对太阳能电池板进行分析；在桨距角确定的条件下，适当取值叶尖速比，能够获得最大风能利用系数。同时，在不同温度和辐射的条件下，太阳能电池板能够取得功率曲线的峰值，为风光互补的最大功率获取提供理论上的支持。针对离网型风光互补系统能源的合理化利用，提出混合供能的能量管理策略，符合该装置的供能需求，对户外同类型装置供能设计提供一定的参考。     

基于正交设计的糙条消能工评价方法

在新疆635溢洪道整治工程研究的基础上,基于正交设计原理,对溢洪道布置糙条消能工进行6因素3水平的正交试验,试验测得18种组合典型断面的瞬时流速和水深;通过对弯道微元化处理的方法,建立了质量离散系数C_m模型,并结合消能率η对试验结果进行了极差分析;考虑到建立导流效果评价方法的普适性,定义量纲一因子R_d和R_s,对布置参数与工程参数之间的相关性做了进一步分析.结果表明:质量离散系数C_m能够客观地反映糙条消能工的导流效果;就C_m指标影响程度而言,工程参数较布置参数的影响程度占主导地位,在实际工程中,工程参数的确定应充分考虑水流形态;由于R_d和R_s均是量纲一参数,因此在一般整流工程导流效果的评价方法上具有普适性.     

8℃相变蓄冷技术

指出了自“十二五”规划以来,可持续发展和能源结构转型成为我国政府工作的重中之重,合理利用能源为人类社会创造更加美好的现代生活已经成为社会的共识。蓄冷技术能够按需实现能量的存储和释放,从宏观上起到“移峰填谷”平衡电网的作用;我国电力系统实行分时计价政策,从微观上可以利用峰谷电价差为用户节省制冷系统的运行费用。8℃相变蓄冷技术兼备了传统水蓄冷和冰蓄冷的优点,具有蓄冷密度大、系统简单的突出优点,是当前蓄冷技术研究和应用的前沿方向,市场前景十分广阔。     

基于动态规划的电动拖拉机动力电源能量控制策略研究

针对纯电动拖拉机能量利用率低、续航里程不足的问题，提出了基于超级电容和蓄电池复合的纯电动拖拉机动力电源系统。通过分析纯电动拖拉机的作业工况特点以及功率需求，对动力电源系统进行了拓扑结构选型和参数匹配，并以动力电源能耗最低为优化目标，应用动态规划对纯电动拖拉机的动力电源系统进行能量控制策略优化，对动态规划结果以及工况特点进行分析，总结出基于规则的动力电源能量控制策略，利用Matlab/Simulink建模对控制策略进行仿真。结果表明基于动态规划的控制策略能量消耗比基于规则的控制策略能量消耗减少了18%，证明了基于动态规划的能量控制策略在节能降耗方面的有效性。     

Changes in the relationship between species richness and belowground biomass among grassland types and along environmental gradients in Xinjiang,Northwest China

The association between biodiversity and belowground biomass (BGB) remains a central debate in ecology. In this study, we compared the variations in species richness (SR) and BGB as well as their interaction in the top (0-20 cm), middle (20-50 cm) and deep (50-100 cm) soil depths among 8 grassland types (lowland meadow, temperate desert, temperate desert steppe, temperate steppe desert, temperate steppe, temperate meadow steppe, mountain meadow and alpine steppe) and along environmental gradients (elevation, energy condition (annual mean temperature (AMT) and potential evapotranspiration (PET)), and mean annual precipitation (MAP)) based on a 2011-2013 survey of 379 sites in Xinjiang, Northwest China. The SR and BGB varied among the grassland types. The alpine steppe had a medium level of SR but the highest BGB in the top soil depth, whereas the lowland meadow had the lowest SR but the highest BGB in the middle and deep soil depths. The SR and BGB in the different soil depths were tightly associated with elevation, MAP and energy condition; however, the particular forms of trends in SR and BGB depended on environmental factors and soil depths. The relationship between SR and BGB was unimodal in the top soil depth, but SR was positively related with BGB in the middle soil depth. Although elevation, MAP, energy condition and SR had significant effects on BGB, the variations in BGB in the top soil depth were mostly determined by elevation, and those in the middle and deep soil depths were mainly affected by energy condition. These findings highlight the importance of environmental factors in the regulations of SR and BGB as well as their interaction in the grasslands in Xinjiang.     

Energy use efficiency of deficit-irrigated silage maize in different soil tillage practices on a high plain with a semi-arid climate

ABSTRACT

Energy requirement increases rapidly in agriculture due to the increase in mechanization. The aim of the present study is to evaluate the energy use efficiency of silage maize under three different tillage practices (conventional, reduced, no-tillage) combined with four different irrigation levels (full and three deficit irrigations). The no-tillage and reduced tillage practices provided savings in input energy at the rate of 17.4 and 9.1%, respectively compared to the conventional tillage. The highest silage yields in all irrigation levels were obtained in the no-tillage practice. Therefore, in full and deficit irrigated silage maize, the highest energy ratio, energy productivity and net energy and the lowest specific energy values were manifested in the no-tillage practice. Energy rates in the no-tillage practice were higher by 34.2 and 22.9% than the conventional and the reduced tillage practices, respectively. Moreover, the direct and non-renewable energy requirements were the lowest in the no-tillage practice. In conclusion, the fully-irrigated no-tillage practice can be recommended to obtain the highest energy use ratio and productivity. However, no-tillage irrigated with up to 50% less water amount could be a better alternative for areas with a water shortage by improving the energy use ratio with better water and fuel savings.     

产蛋期蛋鸡不同类型玉米净能研究

本试验利用禽用开放式呼吸测热装置进行能量代谢试验,通过间接测热法结合替代法测定不同类型玉米在产蛋期蛋鸡饲粮中的表观代谢能和净能。选用34周龄产蛋期海兰褐蛋鸡180只,随机分为6组,每组30只。试验选用1种玉米-豆粕型基础饲粮和5种待测饲粮。待测饲粮由5种待测玉米(3种2018年10月收获的正常玉米和2种2016年收获储存3年的陈化玉米),分别以50%比例替代基础饲粮构成。试验鸡在舍内笼养,预试期7 d,正试期27 d,其中正试期分为3期,每期9 d(适应3 d、呼吸测热3 d、绝食测热3 d)。每期试验中,从每组中选择4只试验鸡,称重后分别放入呼吸测热装置的12个代谢室(每个代谢室2只),每2个代谢室对应1种饲粮,测定气体交换和排泄物总量,呼吸测热的同时进行消化代谢试验。结果表明:与基础饲粮相比,5种玉米待测饲粮的表观代谢能显著提高(P<0.05),3种正常玉米待测饲粮的净能显著高于基础饲粮和2种陈化玉米待测饲粮(P<0.05);2种陈化玉米的表观代谢能和净能显著低于3种正常玉米(P<0.05)。本试验中,3种正常玉米的表观代谢能分别为16.19、15.85、16.17 MJ/kg,2种陈化玉米的表观代谢能分别为15.12和15.06 MJ/kg;3种正常玉米的净能分别为12.39、12.57、12.25 MJ/kg,2种陈化玉米的净能分别为11.29和12.05 MJ/kg。