采用碳水足迹评价中国与哈萨克斯坦大豆机械化生产模式

农业生产已进入机械化生产时代,定量评价作物机械化生产的环境影响、水资源消耗、生产效率等已成为迫切需要解决的问题。该研究以中国黑龙江垦区和哈萨克斯坦阿拉木图州的大豆机械化生产模式为例,从碳足迹、水足迹和产量3个方面对大豆的机械化进行分析与评价生产模式。研究结果表明:中国黑龙江垦区下属嫩江农场大豆机械化生产的碳足迹、水足迹和大豆产量分别为0.51 kg/kg、1.82 m3/hm2和2 875 kg/hm2,哈萨克斯坦阿拉木图州阿曼格迪农场分别为0.52 kg/kg、2.76 m3/hm2和2 000 kg/hm2。相较于嫩江农场,阿曼格迪农场大豆机械化生产的碳足迹高2.08%,水足迹高51.83%,大豆产量低30.43%。因此,阿曼格迪农场未来大豆机械化生产需以节水增产为重要发展目标。结合实际生产情况,更新与配套大豆机械化生产的各类农机具、推广节水灌溉技术、建立大豆机械化生产作业规范,有助于提升哈萨克斯坦大豆机械化生产水平。该研究可为多角度评价不同区域作物机械化生产模式提供案例参考。     

Influence analysis of fuel quality on engine emission performance

Quality, composition, and characteristics of fuel from 7 areas of P. R. China were analyzed. Fuel quality factors influencing engine emission performance were studied. Using fuel from the HuaZhong and XiNan areas, engine COx, HC, and NOx emissions were tested by adjusting the excess air coefficient and the advanced ignition angle. In light of the characteristics of aromatic hydrocarbon and alkenes of fuel from different areas in P. R. China, we have shown engines can operate smoothly and engine emissions can be decreased when the excess air coefficient and the advanced ignition angle are properly adjusted.     

绿色低碳视域下长江经济带耕地生态外溢价值评估及时空变化分析

为推进长江经济带耕地保护和绿色低碳发展,利用当量因子法、环境成本法等测算耕地生态服务价值和负外部性价值,结合耕地生态足迹和生态承载力,将长江经济带11省（直辖市）划分为盈余区、平衡区与赤字区,对耕地生态外溢价值进行评估,并分析时空变化特征。结果显示：（1）2011-2021年长江经济带耕地生态价值总量呈上升趋势,由3 670.37亿元上涨至4 661.55亿元,耕地生态外溢价值缓慢上升,由1 353.82亿元上涨至1 970.77亿元。（2）长江经济带耕地资源整体处于盈余状态,耕地生态价值总体呈现出“东低西高”的态势,四川省耕地生态价值和盈余量最高,上海市耕地生态价值最低。（3）2011-2021年间,浙江省和上海市处于耕地生态赤字区,四川省处于耕地生态高盈余区,重庆市和贵州省处于耕地生态平衡状态,江西省、安徽省和江苏省耕地生态盈亏无显著变化,云南省和湖北省耕地生态盈余水平有所上升,湖南省耕地生态盈余水平有所下降。基于此,长江经济带各省（直辖市）应充分利用自身资源和优势,制定和实施适应性的耕地保护策略,推动耕地资源的可持续利用,为实现长江经济带的生态优先、绿色低碳发展目标做出贡献。     

我国典型茶区化学氮肥施用与生产运输过程的温室气体排放量估算

基于相关统计数据和文献调研方法,估算了我国14个典型茶区中化学氮肥施用、生产及运输过程中的温室气体排放量。结果表明,化学氮肥施用导致的土壤N₂O直接排放和生产过程中的温室气体排放是茶园化学氮肥消费带来的温室气体主要排放源;14个典型茶区消费的化学氮肥产生的温室气体排放量(以CO₂排放当量计算)为16.81~344.80万t·a^-1,其中贵州、云南、湖北和四川4省的茶园消费的化学氮肥带来的温室气体排放量较高,均超过200万t·a^-1,占全部区域温室气体排放量的59.98%;单位面积温室气体排放量为3.22~9.76 t·hm^-2·a^-1,单位产量温室气体排放量为2.10~12.96 t·t^-1·a^-1、单位产值温室气体排放量0.39~1.90 t·万元^-1·a^-1;总体而言,贵州、云南、湖北、湖南和四川5省的茶园消费的化学氮肥带来的温室气体排放量、单位面积温室气体排放量、单位产量温室气体排放量和单位产值温室气体排放量较高,福建、河南省及重庆市3个茶区相对较低。在茶园化学氮肥施用量控制为300 kg·hm^-2和450 kg·hm^-2两种情景下,茶园生态系统温室气体减排总量为617.07万t·a^-1和228.94万t·a^-1,减排潜力为34.12%和12.66%,减排潜力较大的区域主要有湖北、四川、贵州、湖南和江西等5省。     

生鲜肉类食品供应链碳排放测算及动态优化研究

以生鲜肉类食品供应链作为研究对象,基于生命周期理论界定生鲜肉类食品供应链碳排放的系统边界,并结合系统动力学方法建立生鲜肉类食品供应链的系统动力学模型,探讨肉类食品供应链的碳排放问题。研究结果表明:1)1t生鲜肉在其生命周期内产生的碳排放为166.97kg,其中生产、运输、仓储和销售环节中碳排放分别占总供应链的28.68%、52.37%、8.90%和10.04%,运输环节对全供应链的碳排放贡献率最高。2)动态优化研究发现,运输环节改变长途运输方式、生产环节废弃物回收利用及优化生产设备效率、销售环节降低设备功率取得的碳排放优化效果最佳,在2018年供应链碳排放分别降低了41.10%、4.70%、1.61%和1.25%。3)目前优化运输能源结构、开发可再生的清洁能源已成为大势所趋,且模拟结果表明,运输中燃烧生物柴油可降低供应链碳排放的13.10%,减排效果较为显著。4)在生鲜肉预冷过程中降低制冷系统能耗、在冷藏及销售过程中提高设备空间利用率可分别使供应链年碳排放降低2 100、1 600t,虽实施效果较小,但该措施便于操作,是降低供应链碳排放的有效途径。     

天津市产业碳排放的影响因素及贡献

[目的] 综合考虑“水—土—能—碳”相互关系,研究产业碳排放的影响因素及贡献,为天津市减排决策制定提供一定依据。[方法] 对天津市产业碳排放进行测算,将水土资源因素引入Kaya恒等式,运用LMDI模型计算产业碳排放各影响因素的贡献。[结果] 2004—2018年天津市各产业碳排放均呈现上升趋势;整体来看,水资源经济产出、人口数量促进天津市各产业碳排放,且前者为主要促进因素,水土资源因素抑制各产业碳排放,碳排放强度促进农业碳排放,而抑制其他产业碳排放,人均用地面积抑制农业碳排放,而促进其他产业碳排放;水土资源因素对各产业碳排放影响的变化与水土资源匹配度变化有较好的一致性,单位用地面积用水量越多,其对碳排放的促进作用越大。[结论] 为实现节能减排,应发展节水产业,优化城市水土资源开发利用,发挥水土资源因素对碳排放的抑制作用。     

Can large-scale biofuels production be sustainable by 2020?

Worldwide, many nations impose blending of their transport fuels with biofuels, approximating 10% globally by 2020, to contribute to energy security while reducing emission of green house gasses (GHG). Food riots, scientific insights that question the GHG benefits and raised concern about the loss of biodiversity, have lead to the formulation by various governments of sustainability criteria for biofuels to comply with. In this paper, we assess this conditionality and argue that large-scale biofuels production will be unable to comply with these criteria in 2020, and can therefore not be qualified as sustainable.     

DME发动机非常规排放物的检测与分析

用气相色谱仪和傅立叶红外光谱仪对燃用DME的ZS195柴油机的排气中的甲醛(HCHO)、甲酸甲酯(CHCOOCH3)、甲酸(HCOOH)非常规排放物进行了检测和分析。结果表明,DME发动机的尾气排放中,均检测到HCHO,HCOOCH3,HCOOH排放物,且甲醛是非常规排放物中的主要成分,甲醛、甲酸甲酯的排放量随转速上升而略有上升,随负荷增加而不同程度的减少,而甲酸排放量变化则不甚明显。     

Energy and resource consumption of land-based Atlantic salmon smolt hatcheries in the Pacific Northwest (USA)

This paper evaluates the resource and energy requirements of six different types of land-based, hatchery production systems located in the U.S. Pacific Northwest: flow-through with a gravity water supply, flow-through with a pumped water supply, flow-through with pure oxygen, partial reuse system, partial reuse with heating, and a reuse system for the production of Atlantic salmon (Salmo salar) smolts. Key parameters used in the evaluation include direct energy, indirect energy, transportation energy, greenhouse gas emissions, and pollutant discharges.Power (electricity and natural gas) and feed energy accounted for the majority of the required energy for all the rearing option evaluated. The sum of the fixed capital and chemicals components accounted for less than 2–12% of the total energy budget for any rearing option. The energy efficiency (energy output/energy input) of the six options ranges from 0.97% for flow-through with pumped supply to 3.49% for the flow-through with gravity supply. The rearing options with the three highest energy efficiencies were flow-through with gravity supply (3.49%), partial reuse (2.75%), and reuse (2.64%).On a kg of smolt produced basis, the six rearing options showed a wide range in performance. The reuse system had the lowest water (2 m³ kg^− 1) and land (0.13 m² kg^− 1) requirements and the third lowest total energy requirement (288 MJ kg^− 1). The partial reuse system had the second lowest total power requirement (276 MJ kg^− 1), a low land requirement (0.21 m² kg^− 1), and moderate water requirements (33 m³ kg^− 1). The partial reuse with temperature control had the second highest total power requirement (657 MJ kg^− 1) and land and water requirements similar to the partial reuse system without temperature control. The flow-through system with pumped water supply had the highest water (289 m³ kg^− 1), land (2.19 m² kg^− 1), and energy requirements (786 MJ kg^− 1) of any of the rearing options. By comparison, the flow-through system with gravity water supply had the lowest energy requirement (218 MJ kg^− 1), a moderate land requirement (0.78 m² kg^− 1), and a high water requirement (214 m³ kg^− 1). The ranking of the six rearing options based capital and operating costs are likely to be quite different from those based on energy, water, and greenhouse gas emissions.