Your search keyword '"Yingya Chen"' showing total 15 results

1. Design and adaptability of photovoltaic air conditioning system based on office buildings

Author

Yanfeng Liu, Yingya Chen, Dengjia Wang, Xi Luo, Jiaping Liu, Jingrui Liu, and Yingying Wang

Subjects

Payback period, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, media_common.quotation_subject, Photovoltaic system, System testing, 02 engineering and technology, Energy consumption, 021001 nanoscience & nanotechnology, Electricity demand, Adaptability, Automotive engineering, Air conditioning, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Inverter, General Materials Science, 0210 nano-technology, business, media_common

Abstract

Photovoltaic (PV) air conditioning (AC) is an effective way to solve the problems of energy consumption of office buildings. In this study, a set of parameters were designed for PV AC, including PV capacity, AC parameter, and inverter parameter. Then, the parameters were applied to a 20-m2 office building, and a PV AC system test platform was built. The test lasted for one year; the corresponding data including typical daily data and annual data were collected and analyzed. The results show that the PV AC system quickly decreases or increases the room temperature by ~9.5% and 17% in 1 h of cooling and heating periods, respectively, thus maintaining the room temperature within the set temperature range of ±0.9 °C. The data also show that by proper design of parameters, a PV AC system can satisfy the electricity demand of AC. In the cooling period, heating period, and annual operation conditions, the PV system provided 114%, 73%, and 188% of the energy for the AC system, respectively. Next, economic calculations show that PV AC is suitable for office buildings. The local payback period is only 7.5 years; both the energy saving and emission reduction are significant.

Published

2020

2. Research on Photovoltaic Performance Reduction due to Dust Deposition: Modelling and Experimental Approach

Author

Dengjia Wang, Yanfeng Liu, Jiaping Liu, Yingya Chen, and Yu Dong

Subjects

Open-circuit voltage, business.industry, 020209 energy, Photovoltaic system, Energy conversion efficiency, Environmental engineering, 02 engineering and technology, Condensed Matter Physics, Renewable energy, 020303 mechanical engineering & transports, Electricity generation, 0203 mechanical engineering, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Fill factor, business, Deposition (chemistry), Voltage

Abstract

Photovoltaic (PV) power generation technology is the main renewable energy utilization technology. However, dust deposition severely affects the PV power generation efficiency and decreases the production capacity of PV power plants. In this study, the factors affecting PV technology were divided into the following three types: occlusion, corrosion, and temperature rise. A dust-collecting PV model considering dust deposition and rainfall scouring was established; a PV performance index was proposed. By conducting experiments with different dust mass densities, it was found that the short-circuit current (SCC), open-circuit voltage (OCV), and PV output power of PV decreased with the increase in dust mass density. In the initial stage of dust deposition, dust exhibited the greatest effect on the performance of PV. In the later stage of dust deposition, the effect of dust deposition became stable. The initial 10 g/m2 dust decreased the PV output power by 34%. In addition, the conversion efficiency and fill factor (FF) decreased with the increase in dust mass density; both of them were exponential functions. When the dust mass density was low (less than 30 g/m2), the dust mass density increased by 10 g/m2, and the conversion efficiency decreased by an average of 3.4%. Finally, by conducting economic calculations, it was found that a PV power plant where dust has not removed for one year will cause 12% loss of power generation.

Published

2019

3. Experimental Study on the Effect of Dust Deposition on Photovoltaic Panels

Author

Yingya Chen, Yanfeng Liu, Dengjia Wang, Xiaowen Wang, Yong Zhou, Tian Zhijun, and Yu Dong

Subjects

Maximum power principle, 020209 energy, Energy conversion efficiency, Photovoltaic system, Energy current, Environmental engineering, 02 engineering and technology, Electricity generation, 020401 chemical engineering, 0202 electrical engineering, electronic engineering, information engineering, Shielding effect, Environmental science, 0204 chemical engineering, Deposition (chemistry), Voltage

Abstract

In recent years, PV is considered to be one of the main way to solve the current energy crisis. PV is generally built in exposed areas such as deserts and wasteland. And the efficiency of power generation of PV is easy affected by the dust accumulated on it. The research expounds the "three factors" of the effect of dust on PV, namely shielding effect, temperature effect and corrosion effect, then an efficiency evaluation method for photovoltaic cells is proposed. Finally, the field experiments show that with the increase of dust density, the short-circuit current, open-circuit voltage, and output power of the PV both decrease. The dust with a density of 10 g/m2 can reduce the maximum power of the PV by about 34%. In the initial stage of PV dust accumulation, dust has the greatest impact on its output performance. In addition, the dust density and the conversion efficiency have better nonlinear correlation. As the dust accumulation density gradually increases, the PV conversion efficiency gradually decreases. When the dust density increases to a certain extent, the PV conversion efficiency tends to be stable.

Published

2019

4. Experimental Study on Performance Test of Serpentine Flat Plate Collector with Different Pipe Parameters and A New Phase Change Collector

Author

Yingya Chen, Dengjia Wang, Xiaowen Wang, Yanfeng Liu, and Kang Wenjun

Subjects

Temperature resistance, Materials science, 020209 energy, Low melting point, 02 engineering and technology, Radiation, Phase-change material, Phase change, 020401 chemical engineering, Thermal, 0202 electrical engineering, electronic engineering, information engineering, Melting point, 0204 chemical engineering, Composite material, Overheating (electricity)

Abstract

In this paper, the thermal performance of serpentine pipe flat plate collectors with different pipe diameters and pipe spacings was tested by experiments. On this basis, two phase change materials with high melting point (70 °C) and low melting point (15 °C) were laid on the upper and lower parts of the pipeline to enhance the frost resistance and high temperature resistance of the collector. The experimental results show that under strong solar radiation conditions, high-melting phase change materials can absorb a lot of heat when the water temperature of the collector is high, thereby slowing down the water temperature rise and avoiding overheating, and when the collector is cooled, phase change can be effectively utilized to slows down the rate of temperature drop of the collector, so as to achieve reasonable utilization of the overheating of the collector; in the low temperature environment, the low melting point phase change material can significantly reduce the cooling of the collector and improve the frost resistance of the collector. The placement of the two kinds of different melting point phase change materials was investigated, and the results show that the low-melting phase change material under the pipe is more conducive to the collector antifreezing. However, for the hot regions, the high-melting phase change material placed at the top of the pipe is more conducive to preventing overheating.

Published

2019

5. Numerical Study on Thermal Efficiency of Large-Scale Flat-Plate Solar Collectors

Author

Yingya Chen, Yanfeng Liu, Yuchao Ren, and Dengjia Wang

Subjects

Solar heating system, Thermal efficiency, Physical model, Scale (ratio), Instantaneous efficiency, Nuclear engineering, Heat transfer, Thermal, Physics::Accelerator Physics, Computer Science::Programming Languages, Environmental science, Heat losses

Abstract

The flat-plate solar collectors have better efficiency characteristics in low-temperature region. With the development of solar thermal utilization technology, the research of collectors suitable for different temperature requirements, application sites and personalized design of collectors will be a new direction in the future, and the flat-plate solar collectors used in solar heating system will be a development trend. Therefore, it is proposed that the flat-plate solar collectors should increase their collector efficiency and outlet temperature by increasing the scale. According to the heat transfer mathematical model of flat-plate solar collector, the relationship between heat-collecting area and collector efficiency was studied. In this paper, the 3-D physical models of the large-scale flat-plate solar collectors were established. The CFD software was used to simulate the operation characteristics of large-scale flat-plate solar collectors under different working conditions, and the heat loss, heat collection and thermal efficiency of different scale collectors were analyzed. It is shown that the instantaneous efficiency of large-scale collector is 1– 4% higher than that of parallel collector.

Published

2020

6. The Research on Solar Photovoltaic Direct-driven Air Conditioning System in Hot-humid Regions

Author

Yanfeng Liu, Yu Dong, Yingying Wang, Dengjia Wang, and Yingya Chen

Subjects

business.industry, 020209 energy, Photovoltaic system, Photovoltaic mounting system, 02 engineering and technology, General Medicine, Automotive engineering, Photovoltaic thermal hybrid solar collector, Electricity generation, Solar air conditioning, Air conditioning, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Rooftop photovoltaic power station, business, Efficient energy use

Abstract

This research presents a design method of photovoltaic direct-drive air conditioning system, and arranges the photovoltaic direct-drive air conditioning system in an office building in hot-humid regions, the system mainly includes photovoltaic array, storage battery, confluence unit, PWM controller, and air conditioner. Through the test, we found that photovoltaic direct cur-rent air conditioning system is still able to better meet the indoor thermal environment needs even in hot weather. Besides, in the test day, the amount of photovoltaic power generation apart from meeting the demand for air conditioning and there are remaining. The excessively power generation is stored in the battery, it can be self-sufficient for the system, no municipal power grid supplement and energy efficiency is more significant.

Published

2017

7. The Short Term Thermal Physiological Adaptation of Migrants from Different Climates

Author

Yanfeng Liu, Cong Song, Yu Dong, and Yingya Chen

Subjects

Geography, 010504 meteorology & atmospheric sciences, Meteorology, Cold area, Cold winter, General Medicine, 010501 environmental sciences, Adaptation, Socioeconomics, China, 01 natural sciences, 0105 earth and related environmental sciences, Term (time)

Abstract

In this paper, the comfort thermal environment of the migrants from distinct regions in a short term is studied. The changes of migrants’ adaptation intensity over time are also presented, especially concerning physiological adaptation. One-month tracking experiment in climate chamber has been conducted in Xi’an (the cold region in central north of China), including both physiological measurements and subjective questionnaires. The migrant groups from severe cold area (the further northern region) and hot summer and cold winter area (the south of China) were recruited, and the indigenes were selected as control group. The results show the migrants’ adaptive responses over time fluctuate with the trend to close to that of the locals. The proper temperature ranges of S-N and EN-N groups are 21.02-29.73°C and 20.8-30.59°C to develop the adaptation. The results could contribute to develop the theory of migrants.

Published

2017

8. Experimental and numerical analyses of parameter optimization of photovoltaic cooling system

Author

Xi Luo, Yingya Chen, Dengjia Wang, Yingying Wang, Huaican Liu, Jingrui Liu, Jiaping Liu, and Yanfeng Liu

Subjects

Exergy, Materials science, 020209 energy, Mechanical Engineering, Mass flow, Photovoltaic system, Energy conversion efficiency, 02 engineering and technology, Building and Construction, Mechanics, Pollution, Industrial and Manufacturing Engineering, General Energy, 020401 chemical engineering, Flow velocity, 0202 electrical engineering, electronic engineering, information engineering, Mass flow rate, Exergy efficiency, Water cooling, 0204 chemical engineering, Electrical and Electronic Engineering, Civil and Structural Engineering

Abstract

When the temperature of photovoltaic (PV) increases, the power generation efficiency decreases almost linearly. The temperature effect caused by high temperature has become an important factor that hinders the production of PV. In this study, the structural layout and the parameter optimization of PV cooling system are conducted. For this purpose, a thermal-electric coupled model of PV cooling system has been set up. Using the mathematical model, the effects of various parameters, such as the type of tube, tube diameter, tube spacing, water inlet temperature and flow velocity are analyzed. The results show that the average surface temperature of PV decreases with the increase of tube diameter and flow velocity and the decrease of tube spacing and water inlet temperature. Furthermore, theoretical parametric values for the optimized configuration of the PV cooling system are obtained. The experimental results show that the optimized PV cooling system can effectively reduce the surface temperature, which is about 47.0 °C lower than that of the non-cooled system. Moreover, the conversion efficiency and the exergy efficiency are exponentially related to mass flow. When the mass flow rate is 0.04 kg/s, the conversion and exergy efficiencies achieved the maximum values of 11.9% and 12.4%. When the water inlet temperature is 10 °C, the conversion and exergy efficiencies achieved the maximum values of 11.6% and 11.7%, respectively. Finally, the economic calculations were carried out in three typical cities in China. The results show that the PV cooling system can increase power generation by 7%–15%.

Published

2021

9. Performance evaluation of a hybrid solar powered rotary desiccant wheel air conditioning system for low latitude isolated islands

Author

Jingrui Liu, Xi Luo, Yanfeng Liu, Dengjia Wang, Lei Li, Jiaping Liu, Yingying Wang, and Yingya Chen

Subjects

Desiccant, Meteorology, business.industry, 020209 energy, Mechanical Engineering, Photovoltaic system, Condensation, 0211 other engineering and technologies, 02 engineering and technology, Building and Construction, Cooling capacity, Air conditioning, 021105 building & construction, 0202 electrical engineering, electronic engineering, information engineering, Water cooling, Environmental science, Electrical and Electronic Engineering, business, Water content, Solar thermal collector, Civil and Structural Engineering

Abstract

Low latitude isolated islands have the climate characteristic of high temperature and high humidity, but in short of conventional energy. This study proposes a novel hybrid solar powered rotary desiccant wheel air conditioning (SRDAC) system to improve the indoor temperature of buildings on low latitude isolated islands. The SRDAC system combines photovoltaic power generation, solar thermal collector, vapor compressed cooling system and a two stage rotary desiccant wheel system. In this study, mathematical models of the subsystems of the SRDAC system are established firstly. MATLAB was used to analyze the performance of the SRDAC system, which includes the dehumidification capacity, cooling capacity, condensation heat quantity and thermodynamic performance coefficient. Then, the photovoltaic area and solar thermal collector area of the SRDAC system were matched and optimized based on meteorological parameters of low latitude isolated islands. Finally, the SRDAC system’s economic performance was analyzed. The results show that, for every 10 ℃ increase in regeneration temperature, the dehumidification capacity and cooling capacity increase by 0.9 g/kg-2.7 g/kg and 0.4 kW-1.9 kW, respectively. For every 1 g/kg increase of outdoor air moisture content, the total installed area increased by 2.2%-2.3%. The SRDAC system shows a good operating performance, can better adapt to the climate characteristics of low latitude isolated islands, and effectively reduces the temperature and moisture content of the air. This study serves as a reference for the application of SRDAC system in extremely hot and humid climates.

Published

2020

10. [Synchronous analysis of corticomuscular coherence based on Gabor wavelet-transfer entropy]

Author

Yuanyuan, Zhang, Ce, Zou, Xiaoling, Chen, Yonghao, Yin, Shengcui, Cheng, Yingya, Chen, and Ping, Xie

Subjects

论 著

Abstract

Synchronization analysis of electroencephalogram (EEG) and electromyogram (EMG) could reveal the functional corticomuscular coupling (FCMC) during the motor task in human. A novel method combining Gabor wavelet and transfer entropy (Gabor-TE) is proposed to quantitatively analyze the nonlinearly synchronous corticomuscular function coupling and direction characteristics under different steady-state force. Firstly, the Gabor wavelet transform method was used to acquire the local frequency-band signals of the EEG and EMG signals recorded from nine healthy controls simultaneously during performing grip task with four different steady-state forces. Secondly, the TE of local frequency-band was calculated and the unit area index of the transfer (A(TE)) was defined to quantitatively analyze the synchronous corticomuscular function coupling and direction characteristics under steady-state force. Lastly, the effect of EEG and EMG signal power spectrum on Gabor-TE analysis was explored. The results showed that the coupling strength in the beta band was stronger in EEG→EMG direction than in EMG→EEG direction, and the A(TE) values in the beta band in EEG→EMG direction decreased with the force increasing. It is also shown that the difference in TE values of gamma band present a varying regularity as the increase of force in both directions. In addition, EMG power spectrum was significantly correlated with the result of Gabor-TE inspecific frequency band. The results of our study confirmed that Gabor-TE can quantitatively describe the nonlinearly synchronous corticomuscular function coupling in both local frequency band and information transmission. The analysis of FCMC provides basic information for exploring the motor control and the evaluation of clinical rehabilitation.

Published

2018

11. Efficient Privacy Preserving Viola-Jones Type Object Detection via Random Base Image Representation

Author

Shiming Ge, Xin Jin, Xiaodong Li, Yuan Peng, Yingya Chen, Chenggen Song, and Geng Zhao

Subjects

FOS: Computer and information sciences, business.industry, Computer science, Computer Vision and Pattern Recognition (cs.CV), Detector, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Computer Science - Computer Vision and Pattern Recognition, 020206 networking & telecommunications, Cryptography, Cloud computing, 02 engineering and technology, Object detection, Upload, Server, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Computer vision, Viola–Jones object detection framework, Artificial intelligence, business

Abstract

A cloud server spent a lot of time, energy and money to train a Viola-Jones type object detector with high accuracy. Clients can upload their photos to the cloud server to find objects. However, the client does not want the leakage of the content of his/her photos. In the meanwhile, the cloud server is also reluctant to leak any parameters of the trained object detectors. 10 years ago, Avidan & Butman introduced Blind Vision, which is a method for securely evaluating a Viola-Jones type object detector. Blind Vision uses standard cryptographic tools and is painfully slow to compute, taking a couple of hours to scan a single image. The purpose of this work is to explore an efficient method that can speed up the process. We propose the Random Base Image (RBI) Representation. The original image is divided into random base images. Only the base images are submitted randomly to the cloud server. Thus, the content of the image can not be leaked. In the meanwhile, a random vector and the secure Millionaire protocol are leveraged to protect the parameters of the trained object detector. The RBI makes the integral-image enable again for the great acceleration. The experimental results reveal that our method can retain the detection accuracy of that of the plain vision algorithm and is significantly faster than the traditional blind vision, with only a very low probability of the information leakage theoretically., 6 pages, 3 figures, To appear in the proceedings of the IEEE International Conference on Multimedia and Expo (ICME), Jul 10, 2017 - Jul 14, 2017, Hong Kong, Hong Kong

Published

2017

12. Private Video Foreground Extraction Through Chaotic Mapping Based Encryption in the Cloud

Author

Jing Luo, Huaichao Wang, Geng Zhao, Yingya Chen, Yan Liu, Kui Guo, Xin Jin, Xiaodong Li, Chenggen Song, and Yuzhen Li

Subjects

Information retrieval, Correctness, Third party, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Chaotic, 020207 software engineering, Cloud computing, 02 engineering and technology, Computer security, computer.software_genre, Encryption, Privacy preserving, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Extraction (military), On-the-fly encryption, business, computer

Abstract

Recently, storage and processing large-scale visual media data are being outsourced to Cloud Data Centres CDCs. However, the CDCs are always third party entities. Thus the privacy of the users' visual media data may be leaked to the public or unauthorized parties. In this paper we propose a method of privacy preserving foreground extraction of video surveillance through chaotic mapping based encryption in the cloud. The client captures surveillance videos, which are then encrypted by our proposed chaotic mapping based encryption method. The encrypted surveillance videos are transmitted to the cloud server, in which the foreground extraction algorithm is running on the encrypted videos. The results are transmitted back to the client, in which the extraction results are decrypted to get the extraction results in plain videos. The extraction correctness in the encryption videos is similar as that in the plain videos. The proposed method has several advantages: 1 The server only learns the obfuscated extraction results and can not recognize anything from the results. 2 Based on our encryption method, the original extraction method in the plain videos need not be changed. 3 The chaotic mapping ensure high level security and the ability to resistant several attacks.

Published

2016

13. [Analysis of corticomuscular coherence during rehabilitation exercises after stroke]

Author

Peipei, Ma, Yingya, Chen, Yihao, Du, Yuping, Su, Xiaoguang, Wu, Zhenhu, Liang, and Ping, Xie

Subjects

Electromyography, Case-Control Studies, Stroke Rehabilitation, Humans, Electroencephalography, Knee, Range of Motion, Articular, Muscle, Skeletal, Exercise Therapy

Abstract

To better evaluate neuromuscular function of patients with stroke related motor dysfunction, we proposed an effective corticomuscular coherence analysis and coherent significant judgment method. Firstly, the related functional frequency bands in the electroencephalogram (EEG) were extracted via wavelet decomposition. Secondly, coherence were analysed between surface electromyography (sEMG) and sub-bands extracted from EEG. Further more, a coherent significant indicator was defined to quantitatively describe the similarity in certain frequency domain and phase lock activity between EEG and sEMG. Through the analysis of corticomuscular coherence during knee flexion-extension of stroke patients and healthy controls, we found that the stroke patients exhibited significantly lower gamma-band corticomuscular coherence in performing the task with their affected leg, and there was no statistically significant difference between their unaffected lag and the healthy controls, but with the rehabilitation training, the bilateral difference of corticomuscular coherence in patients decreased gradually.

Published

2015

14. Privacy Preserving Face Identification in the Cloud through Sparse Representation

Author

Geng Zhao, Kui Guo, Yan Liu, Yingya Chen, Xin Jin, and Xiaodong Li

Subjects

business.industry, Computer science, Cloud computing, Sparse approximation, Computer security, computer.software_genre, Euclidean distance, Identification (information), Face (geometry), Confidentiality, Artificial intelligence, Data mining, Dimension (data warehouse), business, Protocol (object-oriented programming), computer

Abstract

Nowadays, with tremendous visual media stored and even processed in the cloud, the privacy of visual media is also exposed to the cloud. In this paper we propose a private face identification method based on sparse representation. The identification is done in a secure way which protects both the privacy of the subjects and the confidentiality of the database. The face identification server in the cloud contains a list of registered faces. The surveillance client captures a face image and require the server to identify if the client face matches one of the suspects, but otherwise reveals no information to neither of the two parties. This is the first work that introduces sparse representation to the secure protocol of private face identification, which reduces the dimension of the face representation vector and avoid the patch based attack of a previous work. Besides, we introduce a secure Euclidean distance algorithm for the secure protocol. The experimental results reveal that the cloud server can return the identification results to the surveillance client without knowing anything about the client face image.

Published

2015

15. Color Image Encryption in CIE L*a*b* Space

Author

Xiaokun Zhang, Kejun Zhang, Shiming Ge, Yulu Tian, Ziyi Wang, Yingya Chen, Yuzhen Li, Yan Liu, Geng Zhao, Xin Jin, Xiaodong Li, and Kui Guo

Subjects

Computer science, Color image, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, HSL and HSV, Color space, Encryption, RGB color space, RGB color model, Computer vision, Artificial intelligence, Logistic map, business, Correlation attack

Abstract

To protect the contents of images in the mobile internet era during image storage and transmission, image encryption has achieved a tremendous success during the last decades. Currently, little attention has been paid to non-RGB color spaces such as HSV, YUV and L*a*b* color spaces in the color image encryption community. In this paper we use high level encryption schemes in more informative channels and low level encryption schemes in less informative channels. This paper is the first time to encrypt color image in CIE L*a*b* color space. First we convert RGB to L*a*b* color space. The 2D Arnold’s cat map followed by the 3D Lu chaotic map are conducted in the L* channel. The less complicated DNA coding and 1D logistic map based encryption scheme is leveraged in the a* and b* channels, which contain less information than that in the L* channel. The experimental results reveal that our method achieves similar results with the method that conducts the same scheme in each channel of the RGB color space, while consuming less time. In addition, our method can resistant several attacks such as brute-force attack, statistic attack, correlation attack.

Published

2015