Showing total 4 results

1. A new method to estimate wave height of specified return period.

Author

Wang, Liping, Xu, Xin, Liu, Guilin, Chen, Baiyu, and Chen, Zhengshou

Subjects

*COASTS, *MATHEMATICAL models, *PARAMETER estimation, *FRACTALS, *PERFORMANCE evaluation

Abstract

In this paper, we propose a new method to estimate the wave height of a specific return period based on the Hurst rule and a self-affine fractal formula. A detailed description of our proposed model is presented in this paper. We use the proposed model to analyze wave height data recorded along the coast of Chaolian Island from 1963 to 1989. The results show that the performance of our proposed model in estimating design wave heights is superior to traditional models. [ABSTRACT FROM AUTHOR]

Published

2017

2. Comparisons of complex network based models and real train flow model to analyze Chinese railway vulnerability.

Author

Ouyang, Min, Zhao, Lijing, Hong, Liu, and Pan, Zhezhe

Subjects

*RAILROADS, *COMPARATIVE studies, *PERFORMANCE evaluation, *MATHEMATICAL models, *INFRASTRUCTURE (Economics), *PSYCHOLOGICAL vulnerability, *STRUCTURAL failures

Abstract

Abstract: Recently numerous studies have applied complex network based models to study the performance and vulnerability of infrastructure systems under various types of attacks and hazards. But how effective are these models to capture their real performance response is still a question worthy of research. Taking the Chinese railway system as an example, this paper selects three typical complex network based models, including purely topological model (PTM), purely shortest path model (PSPM), and weight (link length) based shortest path model (WBSPM), to analyze railway accessibility and flow-based vulnerability and compare their results with those from the real train flow model (RTFM). The results show that the WBSPM can produce the train routines with 83% stations and 77% railway links identical to the real routines and can approach the RTFM the best for railway vulnerability under both single and multiple component failures. The correlation coefficient for accessibility vulnerability from WBSPM and RTFM under single station failures is 0.96 while it is 0.92 for flow-based vulnerability; under multiple station failures, where each station has the same failure probability fp, the WBSPM can produce almost identical vulnerability results with those from the RTFM under almost all failures scenarios when fp is larger than 0.62 for accessibility vulnerability and 0.86 for flow-based vulnerability. [Copyright &y& Elsevier]

Published

2014

3. Modeling and performance evaluation of shallow ground water heat pumps in Beijing plain, China

Author

Liang, Ji, Yang, Qingchun, Liu, Licai, and Li, Xuyong

Subjects

*GROUNDWATER, *HEAT pumps, *PERFORMANCE evaluation, *HEATING, *RENEWABLE energy sources, *HEAT exchangers, *MATHEMATICAL models, *HEAT transfer

Abstract

Abstract: The use of groundwater for cooling and heating purposes is of interest from both the economical and the ecological perspective. The groundwater heat pump (GWHP) system utilizes groundwater as alternative renewable and clean energy source for space heating and/or cooling, withdraws water from a production well, passes it through a heat exchanger and discharges the water into an injection well. By utilizing the relatively stable temperature of groundwater, GWHP system can achieve a higher coefficient of performance. Due to the utilization of groundwater stored in the aquifer, the assessment of the hydraulic capacity of the aquifer based on numerical groundwater models is always needed for the optimum design and the efficient performance of GWHP. In this paper, numerical methods of underground heat-water transfer, energy balance method and thermal storage method were presented to calculate the capacity of unit area of shallow groundwater aquifer. The model results indicate that the numerical method, which is based on performance efficiency of GWHP, represents the behaviour of groundwater pumping/recharging processes, and serves better than energy balance method and thermal storage method, in addition it has been proven itself that this method has the advantages of energy saving and environmental protection. The calculated capacity is positively related to aquifer thickness. It is found that it is easy for ground water recharge in alluvial and pluvial fan located at the piedmont, while the calculated capacity is relatively smaller compared with that of south-east plain where it is not easy for groundwater recharge. [Copyright &y& Elsevier]

Published

2011

4. Study on performance of solar assisted air source heat pump systems for hot water production in Hong Kong

Author

Li, Hong and Yang, Hongxing

Subjects

*PERFORMANCE evaluation, *SOLAR energy, *HEAT pumps, *HOT water, *MATHEMATICAL models, *TEMPERATURE effect

Abstract

Abstract: This paper reports the investigation results on application of the solar assisted air source heat pump systems for hot water production in Hong Kong. A mathematical model of the system is developed to predict its operating performance under specified weather conditions. The optimum flow rate from the load water tank to the condenser is proposed considering both the appropriate outlet water temperature and system performance. The effect of various parameters, including circulation flow rate, solar collector area, tilt angle of solar collector array and initial water temperature in the preheating solar tank is investigated, and the results show that the system performance is governed strongly by the change of circulation flow rate, solar collector area and initial water temperature in the preheating solar tank. [Copyright &y& Elsevier]

Published

2010