内蒙古河套灌区节水工程改造效果分析与评估

以内蒙古河套灌区1982—2012年长系列农业净引水量和年降水量资料为基础,运用均值分析、方差分析、相关分析、时间序列分析和生存分析等数理统计学方法,并结合内蒙古河套灌区农业种植发展进程,分析了河套灌区多年农业净引水量变化趋势与影响因素,得出年降水量(超过211.76 mm时,即丰水年)和节水工程改造分别独立地与农业净引水量呈明显负相关关系的结论。运用时间序列法预测了2013、2014和2015年河套灌区的农业净引水量分别为44.5、44.18和43.86亿m3;同时运用生存分析法预测了在灌区现有节水改造规模条件下,河套灌区农业净引水量区间为35~55亿m3,平均为45亿m3。     

自动化温室测控系统的设计

温室测控系统是对温室环境囚素(如温度、湿度和CO2浓度等)进行相应地修正或调整，使植物生长处于最佳或相对最佳的生长环境条件中。为此，介绍了自动化温室测控系统的工作原理和系统的硬件实现方法，并说明了软件的设计及功能。     

深水网箱网衣破损监测系统设计

针对在深水网箱网衣破损监测研究中出现的问题,提供了一种全新的网箱网衣破损监测方法和监测系统,可在浑水区实时监测网衣情况.系统由单片机、网片检测电路、开关矩阵和GSM手机模块组成.在网衣内编入导线,使网衣成为一种网破传感器.系统将网衣分成多块网片,并对网片进行编码.网片破损处与海水、入海电极形成回路,触发手机模块发出报警短信,指出网箱的编号和网衣破损部位.当系统与网衣出现连接故障时也可触发手机模块发出报警短信,指出故障网箱的编号和故障部位.     

交流发电机输出脉动电压分析

交流发电机输出的直流电动势会有较大的脉动电压。市场上与汽车、拖拉机、农业机械、工程机械等配套的发电机,在一定转速下脉动电压也是一项主要性能参数。简单介绍过大的脉动电压造成的影响,分析脉动电压的形成,重点论述设计和制造中如何控制脉动电压,以满足市场生产高性能发动机的技术要求。     

太湖平原水田区灌溉回归水分析

江苏太湖平原地区灌溉水源丰富,排水通畅,但由于年际水量分配不均,干旱仍时有发生。根据这一情况,对灌溉水的利用问题进行了研究。在大、小区水量平衡的基础上,提出了灌溉水的回归系数和回归水的重复利用系数,以及灌溉水的重复利用系数。为本区水利规划、用水管理和供水规划提供了可靠的依据。     

区域性医学信息资源共享的经济效益分析

区域性医学信息资源共享是国家信息资源共享的重要组成部分,如何对信息资源共享的经济效益进行测度一直是理论和学术界研究的难点。为合理配置资源,实现医学信息资源的共建共享提供参考,本文运用信息资源共享效益理论,从信息产品、信息服务的角度,分析了不同层面的信息资源共享的建设成本及产生的经济效益。     

Comparative economic performance and carbon footprint of two farming models for producing Atlantic salmon (Salmo salar): Land-based closed containment system in freshwater and open net pen in seawater

Ocean net pen production of Atlantic salmon is approaching 2 million metric tons (MT) annually and has proven to be cost- and energy-efficient. Recently, with technology improvements, freshwater aquaculture of Atlantic salmon from eggs to harvestable size of 4–5 kg in land-based closed containment (LBCC) water recirculating aquaculture systems (RAS) has been demonstrated as a viable production technology. Land-based, closed containment water recirculating aquaculture systems technology offers the ability to fully control the rearing environment and provides flexibility in locating a production facility close to the market and on sites where cost of land and power are competitive. This flexibility offers distinct advantages over Atlantic salmon produced in open net pen systems, which is dependent on access to suitable coastal waters and a relatively long transport distance to supply the US market. Consequently, in this paper we present an analysis of the investment needed, the production cost, the profitability and the carbon footprint of producing 3300 MT of head-on gutted (HOG) Atlantic salmon from eggs to US market (wholesale) using two different production systems—LBCC-RAS technology and open net pen (ONP) technology using enterprise budget analysis and carbon footprint with the LCA method. In our analysis we compare the traditional open net pen production system in Norway and a model freshwater LBCC-RAS facility in the US. The model ONP is small compared to the most ONP systems in Norway, but the LBCC-RAS is large compared to any existing LBCC-RAS for Atlantic salmon. The results need to be interpreted with this in mind. Results of the financial analysis indicate that the total production costs for two systems are relatively similar, with LBCC-RAS only 10% higher than the ONP system on a head-on gutted basis (5.60 US$/kg versus 5.08 US$/kg, respectively). Without interest and depreciation, the two production systems have an almost equal operating cost (4.30 US$/kg for ONP versus 4.37 US$/kg for LBCC-RAS). Capital costs of the two systems are not similar for the same 3300 MT of head-on gutted salmon. The capital cost of the LBCC-RAS model system is approximately 54,000,000 US$ and the capital cost of the ONP system is approximately 30,000,000 US$, a difference of 80%. However, the LBCC-RAS model system selling salmon at a 30% price premium is comparatively as profitable as the ONP model system (profit margin of 18% versus 24%, respectively), even though its 15-year net present value is negative and its return on investment is lower than ONP system (9% versus 18%, respectively). The results of the carbon footprint analysis confirmed that production of feed is the dominating climate aspect for both production methods, but also showed that energy source and transport methods are important. It was shown that fresh salmon produced in LBCC-RAS systems close to a US market that use an average US electricity mix have a much lower carbon footprint than fresh salmon produced in Norway in ONP systems shipped to the same market by airfreight, 7.41 versus 15.22 kg CO₂eq/kg salmon HOG, respectively. When comparing the carbon footprint of production-only, the LBCC-RAS-produced salmon has a carbon footprint that is double that of the ONP-produced salmon, 7.01 versus 3.39 kg CO₂eq/kg salmon live-weight, respectively.     

纳税申报电子信息采集系统设计

电子报税是我国税制改革的一个重要组成部分,根据电子报税的具体要求确定了系统的功能模块、开发及运行平台和网络拓扑结构,并按照系统工程原则,用现代软件技术设计了纳税申报电子信息采集系统。     

Herbicide savings and economic benefits of several strategies to control Sorghum halepense in maize crops

This study was conducted to assess the herbicide savings and the cost efficiency of site-specific herbicide application strategies in comparison with other strategies based on uniform application of herbicides throughout the whole field. The specific situation considered was Sorghum halepense infested maize fields in Spain. The results from a theoretical economic model were contrasted with the information derived from a S. halepense survey conducted in 37 commercial maize fields distributed over three Spanish maize production areas. Seven application strategies were simulated: 1) no herbicide; 2) overall full-rate; 3) overall half-rate; 4) and 5) site-specific spraying infested cells with full- and half-rate, respectively; 6) and 7) site-specific spraying infested cells plus adjacent buffer areas with full- and half-rate, respectively. The simulation results showed that site-specific weed management was the most profitable strategy when S. halepense infested area ranged between 6.5 and 18.7%. This scenario was present in 22% of the surveyed fields. In fields with less than 6.5% infestation (a situation present in 51% of the surveyed fields), yield losses were slight and the most profitable strategy was using no herbicide. When the infested area ranged between 18.7 and 40.8% (19% of the surveyed fields), no significant differences were observed between the net benefits of the various strategies. Full rate herbicide applications throughout the entire field resulted in the highest net returns in fields with more than 40.8% weed infestation (8% of the surveyed fields). In these cases, the added costs of weed detection, mapping and site-specific herbicide application were not justified by the herbicide savings obtained. Likewise, herbicide savings obtained with the various strategies depended on the proportion of the field infested. Considering the high difference between site-specific treatments and uniform application of herbicides when the infested area ranged between 18.7 and 40.8%, and that no significant differences in net returns were observed in this range, site-specific treatments should be preferred. Adding a buffer area to the site-specific treatments does not seem a suitable strategy due to the considerable increases in costs and reductions in herbicide savings.