Nonlinear acoustical properties of liquid and supercritical carbon dioxide

Abstract

Abstract:

Several acoustic parameters including the pressure coefficient of ultrasonic velocity，temperature coefficients of ultrasonic velocity and the nonlinear acoustic parameter of liquid and supercritical carbon dioxide at different temperatures and pressures were calculated by using data of sound velocity，density，specific heat at constant pressure and bulk coefficient of expansion of carbon dioxide provided by the National Institute of Standards and Technology，USAThe nonlinear acoustical characteristics of liquid and supercritical carbon dioxide were analyzed and summarizedThe nonlinear acoustical characteristics of supercritical carbon dioxide were contrasted with those of liquid carbon dioxide and common organic liquidThe nonlinear acoustical characteristics around the critical angle were analyzed in detailInvestigation indicated that the nonlinear acoustical characteristics of liquid carbon dioxide resembled common organic liquid at normal temperature and normal pressureThe values of pressure coefficient of ultrasonic velocity，temperature coefficients of ultrasonic velocity and the nonlinear acoustic parameter of supercritical carbon dioxide might be positive or negative and the values changed with temperature and pressure regularlyThe higher the pressure and the lower the temperature，the more the nonlinear acoustical characteristics of supercritical carbon dioxide agreed with those of liquid carbon dioxide or common organic liquid at normal temperature and normal pressureNear the critical region，the change of these three parameters with temperature and pressure had a jump between positive and negative maximum.

Key words:

二氧化碳, 超临界, 声速压力系数, 声速温度系数, 非线性声参量

摘要：

根据美国国家标准局提供的二氧化碳在液态和超临界态下的声速、密度、比定压热容、膨胀系数等物理参数数据库中数据，计算了二氧化碳在液态和超临界状态下的声速压力系数、声速温度系数和非线性声参量几个非线性声学参数。分析归纳了液态二氧化碳和超临界二氧化碳的非线性声学特性，对比分析了液态二氧化碳、超临界二氧化碳和一般有机液的非线性声学特性。详细分析了二氧化碳在临界点附近的非线性声学特性。研究表明，液态二氧化碳表现出类似于一般液体在常温常压下的非线性声学特性;超临界二氧化碳的声速压力系数、声速温度系数和非线性声参量值可为正值或负值，其值随压力或温度的变化具有一定的规律性。压力越大温度越低，超临界二氧化碳的非线性声学特性越接近液态二氧化碳或一般液体。在临界点附近区域，3个参量值随压力或温度的变化出现正负最大值间的跳跃变化。

关键词:

二氧化碳, 超临界, 声速压力系数, 声速温度系数, 非线性声参量

LU Yigang, SUN Xiaoguang. Nonlinear acoustical properties of liquid and supercritical carbon dioxide[J]. CIESC Journal, 2009, 60(2): 287-293.

卢义刚, 孙小广. 液态和超临界态二氧化碳的非线性声学性质 [J]. 化工学报, 2009, 60(2): 287-293.

[1]	LIU Naihui, LI Shufen, GUAN Wenqiang. Simulation of supercritical CO₂ extraction of clove oil by two-step diffusion model [J]. CIESC Journal, 2011, 62(7): 1933-1937.
[2]	TANG Yan，ZHOU Keyi，WEI Hongqi，XU Xiaohu，HUANG Junlin. Numerical study on deposition problem of orifices in waterwalls of ultra-supercritical boilers [J]. , 2011, 62(7): 1873-1878.
[3]	GONG Sheng, ZHOU Xinhua, YIN Guoqiang, SONG Guangquan, LI Cuijin, YANG Zhuoru. Agglomeration eliminating nano-sized antimony doped tin oxide prepared by sol-gel method [J]. CIESC Journal, 2011, 62(5): 1460-1465.
[4]	PAN Jie, YANG Dong, ZHU Tan, DONG Zichun, BI Qincheng. Heat transfer characteristics of supercritical pressure water in vertical upward rifled tube [J]. CIESC Journal, 2011, 62(2): 307-314.
[5]	HU Yao, YANG Xiaoning. Molecular dynamics simulation of interfacial properties of gold nanoparticle in scCO₂ [J]. CIESC Journal, 2011, 62(2): 295-300.
[6]	XU Chunming, ZHAO Suoqi, LU Chunxi, SUN Xuewen, XU Zhiming, E Chenglin. Engineering basics of heavy oil deep stage separating process [J]. CIESC Journal, 2010, 61(9): 2393-2400.
[7]	YAN Liwei, YU Yunsong, LI Yun, LU Hongfang, ZHANG Zaoxiao. Soft-sensing study of ion concentration in process of carbon dioxide capture by absorption [J]. CIESC Journal, 2010, 61(5): 1169-1175.
[8]	MAO Yufei, GUO Liejin, BAI Bofeng. Calculation model for convective heat transfer of supercritical fluids by low Reynolds number k-ε model [J]. CIESC Journal, 2010, 61(2): 281-288.
[9]	GUAN Yixin, YU Jinpeng, YAO Shanjing, ZHU Ziqiang. Preparation of control-released drugs using supercritical solution impregnation process [J]. CIESC Journal, 2010, 61(2): 269-274.
[10]	DU Zhongxuan, LIN Wensheng, GU Anzhong, GU Min. Numerical simulation of cooling heat transfer to supercritical methane in vertical circular tube [J]. CIESC Journal, 2009, 60(S1): 63-67.
[11]	CHEN Lihua, CAO Guiping, ZHANG Renhan, HE Feng, LIU Tao, ZHAO Ling, YUAN Weikang, George W.Roberts. In-situ visual measurement of poly(methyl methacrylate) swelling in supercritical carbon dioxide and interrelated thermodynamic modeling [J]. CIESC Journal, 2009, 60(9): 2351-2358.
[12]	BAO Weijun, LI Huiquan, ZHANG Yi. Process analysis and mechanism discussion of enhanced CO₂ sequestration by mineral carbonation [J]. CIESC Journal, 2009, 60(9): 2332-2338.
[13]	CHEN Zhentao, XU Chunming, ZHOU Hao, XU Zhiming, WANG Gang, GAO Jinsen. Hindered diffusion of vacuum residue cuts through porous membranes [J]. CIESC Journal, 2009, 60(12): 3042-3051.
[14]	YE Shuming, JIANG Kai, JIANG Chunyue, PAN Qinmin. Glass transition temperature of polymers in supercritical carbon dioxide [J]. CIESC Journal, 2009, 60(1): 254-259.
[15]	LI Meng;CHEN Xi;ZHANG Hua. Numerical simulation of micro-channel gas cooler for CO₂ heat pump water heater [J]. , 2008, 59(S2): 143-147.

Nonlinear acoustical properties of liquid and supercritical carbon dioxide

液态和超临界态二氧化碳的非线性声学性质

PDF (PC)

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments