简析锰矿中的杂质对软锰矿烟气脱硫的影响

简述了中国锰矿资源的特点,简析了锰矿中的杂质对软锰矿烟气脱硫体系的影响,并在矿石中杂质对体系pH缓冲能力分析的基础上,将软锰矿分为高碱性矿石、中碱性矿石和低碱性矿石。     

气相色谱法单塔双柱双检测器测定农产品中有机氯与拟除虫菊酯类农药残留应用探索

气相色谱经加装双ECD检测器,实现单塔双柱双检测器测定农产品中有机氯、拟除虫菊酯类农药残留,在不须关机换色谱柱情况下实现双柱定性定量分析。该方法可节约大量定性分析时间,通过百菌清、氯氟氰菊酯、三唑酮、氯氰菊酯的加标回收试验,平均回收率为95.0%～102.5%,相对标准偏差为1.88%～3.72%,方法稳定可靠。     

Energy balances,greenhouse gas emissions and economics of biochar production from palm oil empty fruit bunches

This paper presents results from a gate-to-gate analysis of the energy balance, greenhouse gas (GHG) emissions and economic efficiency of biochar production from palm oil empty fruit bunches (EFB). The analysis is based on data obtained from EFB combustion in a slow pyrolysis plant in Selangor, Malaysia. The outputs of the slow pyrolysis plant are biochar, syngas, bio-oil and water vapor. The net energy yield of the biochar produced in the Selangor plant is 11.47 MJ kg⁻¹ EFB. The energy content of the biochar produced is higher than the energy required for producing the biochar, i.e. the energy balance of biochar production is positive. The combustion of EFB using diesel fuel has the largest energy demand of 2.31 MJ kg⁻¹ EFB in the pyrolysis process. Comparatively smaller amounts of energy are required as electricity (0.39 MJ kg⁻¹ EFB) and for transportation of biochar to the warehouse and the field (0.13 MJ kg⁻¹ EFB). The net greenhouse gas emissions of the studied biochar production account for 0.046 kg CO₂-equiv. kg⁻¹ EFB yr⁻¹ without considering fertilizer substitution effects and carbon accumulation from biochar in the soil. The studied biochar production is profitable where biochar can be sold for at least 533 US-$ t⁻¹. Potential measures for improvement are discussed, including higher productivity of biochar production, reduced energy consumption and efficient use of the byproducts from the slow pyrolysis.     

Biomass Based Sorption Cooling Systems for Cold Storage Applications

Controlled atmospheric storage is a widely popular technique for storage of fruits and vegetables. In this paper, the experimental studies on biomass powered absorption systems for cold storage applications using ammonia water as a working fluid pair is presented. The heat input to the absorption system is supplied by a producer gas obtained from a downdraft gasifier, using firewood as fuel. The system is designed and fabricated to store about 15 MT of fruits and vegetables, having a cooling capacity of 3 TR. The effect of sink temperature, solution flow rate, cooling water flow rate and biomass consumption on the performance of the system has been analyzed. It is found that the real co-efficient of performance of the system is around 0.35 - 0.2, considering the source-site factor for auxiliary power consumption. The operating Cost/h for the biomass based cold storage system is lower than the presently available conventional compression based units.     

Theoretical and Experimental Investigation of a Novel Hybrid Heat-Pipe Solar Collector

Abstract

This article describes a novel flat plate heat-pipe solar collector, namely, the hybrid heat-pipe solar collector. An analytical model has been developed to calculate the collector efficiency as well as simulate the heat transfer processes occurring in the collector. The effects of heat pipes/absorber, top cover, flue gas channel geometry, and flue gas temperature and flow rate, on the collector efficiency were investigated based on three modes of operation, i.e., solar only operation, solar/exhaust gas combined, and solar, exhaust gas and boiler combined. Experimental testing of the collector was also carried out for each of these modes of operation under real climatic conditions. The results were used to estimate the efficiency of the collector and determine the relation between the efficiency and general external parameter. The modeling and experimental results were compared and a correlation factor was used to modify the theoretical predictions. It was found that the efficiency of the collector was increased by about 20–30% compared to a conventional flat-plate heat pipe solar collector.     

Control Issues in the Design of a Gas Turbine Cycle for CO2 Capture

This article is concerned with control issues related to the design of a semi-closed O ₂/CO ₂ gas turbine cycle for CO ₂ capture. Some control strategies and their interaction with the process design are discussed. One control structure is implemented on a dynamic simulation model using a predictive controller, and simulations assess the performance and compare its merits with a conventional PI structure. The results indicate that it can be advantageous for operability to allow a varying (as opposed to fixed) compressor inlet pressure, at the cost of a more expensive design. Furthermore, the results show that a predictive controller has some advantages with respect to the simpler conventional PI control structure, in particular in terms of constraint handling.     

中国工业园区低碳发展路径研究

中国政府承诺CO₂排放力争于2030年前达到峰值,努力争取2060年前实现碳中和。在工业部门深化应对气候变化和全面推进绿色转型的背景下,数量庞大的工业园区已然成为"十四五"乃至今后一个时期工业领域实现科学、精准碳减排的关键靶点。本研究首先剖析了中国工业园区低碳发展面临的挑战与机遇;进而以2015年为基准年,面向2035和2050年美丽中国建设两阶段战略目标,研究提出了工业园区碳减排的目标、路径和潜力,以期为园区深化低碳发展提供决策参考。研究显示,2015年中国工业园区CO₂排放总量约为28亿吨,占全国总排放量的31%。通过产业结构调整、能效提升、能源结构优化、碳捕集等低碳路径,2015-2050年全国园区预期可减排CO₂ 18亿吨,在2015年基础上减排60%以上;其中,2015-2035年减排8亿吨,2035-2050年减排10亿吨。     

环境温度对车用压缩天然气瓶火烧试验的影响

环境温度是研究车用压缩天然气瓶火烧试验机理的一个重要因素,因此有必要定量的研究环境温度对火烧试验的影响。在已有火烧试验数据的基础上,分析了环境温度对车用压缩天然气瓶火烧试验安全泄放压力和火烧持续时间两个关键指标的影响,结果表明安全泄放压力、火烧持续时间和环境温度均呈反比关系。     

初始瓦斯浓度对爆炸温度影响实验研究*

为探索瓦斯爆炸过程中温度变化规律,基于球形爆炸实验,研究不同初始瓦斯浓度条件下爆炸温度及爆炸温度与爆炸压力之间的相互作用关系。结果表明:随初始瓦斯浓度升高,在6.5%(低浓度)、9.5%(当量浓度)、12%(高浓度)时出现爆炸温度极大值,分别为995,932,1 153 K;爆炸过程中温度延迟时间及升温时间与初始瓦斯浓度曲线均呈U型变化,当初始瓦斯浓度约为9.5%(当量浓度)时,温度延迟时间及升温时间变化较小;当初始瓦斯浓度在爆炸上限浓度（16%）和下限浓度（5%）附近时,受瓦斯浓度影响变化较大;初始瓦斯浓度在9.5%时,瓦斯爆炸过程中的压力波促进火焰燃烧波的反向传播,出现二次升温现象。研究结果可为完善瓦斯爆炸温度变化机理、提高灾害防控技术提供依据。     

在有机废水处理领域内的CDM项目分析

介绍清洁发展机制(CDM)的主要内容及国内外在废水领域的温室气体的排放现状。同时结合国内废水领域的温室气体的排放情况,以《中华人民共和国气候变化初始国家信息通报》的数据为基础,分析了CDM项目的经济、能源和环境效益。