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地铁隧道SCG防渗注浆材料试验研究 被引量:3
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作者 刘艳芬 《市政技术》 2021年第8期71-75,94,共6页
为了提升地铁隧道的防渗功能,采用正交试验法配制了一种可注性好、流动性强、体积稳定性好、抗渗性强、经济环保的新型SCG防渗注浆材料。试验结果表明:SCG防渗注浆材料基体组分的最佳配合比为硅酸盐水泥熟料∶硫铝酸盐水泥熟料∶脱硫石... 为了提升地铁隧道的防渗功能,采用正交试验法配制了一种可注性好、流动性强、体积稳定性好、抗渗性强、经济环保的新型SCG防渗注浆材料。试验结果表明:SCG防渗注浆材料基体组分的最佳配合比为硅酸盐水泥熟料∶硫铝酸盐水泥熟料∶脱硫石膏∶粉煤灰∶膨润土∶炉渣煤渣=22.0%∶6.6%∶2.6%∶46.9%∶6.3%∶15.6%,性能优化剂的最佳配合比为聚羧酸减水剂∶碱激发剂∶高聚物=1.5%∶2.0%∶0.5%,渗透系数随着膨润土掺量的增加呈先减小后增大的变化特征,随高聚物掺量的增加逐渐减小,膨润土和高聚物的最佳掺量分别为6.0%和0.50%~0.75%。 展开更多
关键词 地铁隧道 SCG防渗注浆材料 基体组分 性能优化剂
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Performance of a single-stage Linde-Hampson refrigerator operating with binary refrigerants at the temperature level of-60°C 被引量:8
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作者 Qin WANG Kang CUI +2 位作者 Teng-fei SUN Fu-sheng CHEN Guang-ming CHEN 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2010年第2期115-127,共13页
The optimization of the performance of a single-stage Linde-Hampson refrigerator (LHR) operating with six different binary refrigerants (R23/R134a, R23/R227ea, R23/R236ea, R170/R290, R170/R600a and R170/R600) with... The optimization of the performance of a single-stage Linde-Hampson refrigerator (LHR) operating with six different binary refrigerants (R23/R134a, R23/R227ea, R23/R236ea, R170/R290, R170/R600a and R170/R600) with ozone depletion potentials (ODPs) of zero was conducted using a new approach at the temperature level of-60℃. Among these binary refrig- erants, the 0.55 and the 0.6 mole fractions of R23 for R23/R236ea are the most prospective nonflammable ones for the medium and low suction pressure compressors, respectively. For these two kinds of compressors, the 0.6 and the 0.65 mole fractions of R170 for R 170/R600, respectively, are the most prospective binary refrigerants with low global warming potentials (GWPs). The results of optimization of pressure levels indicate that the optimum low pressure value for coefficients of performance (COP) is achieved when the minimum temperature differences occur at both the hot and the cold ends of the recuperator at a specified composition and pressure ratio. Two useful new parameters, the entropy production per unit heat recuperated and the ratio of heat recuperating capacity to the power consumption of the compression, were introduced to analyze the exergy loss ratio in the recuperator. The new approach employed in this paper also suggests a promising application even to the optimization of the performance with multi-component refrigerants. 展开更多
关键词 Linde-Hampson Binary refrigerant REFRIGERATOR PERFORMANCE Optimization
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