Your search keyword '"peak regulation"' showing total 3 results

1. Design and Modelling of Heat-Coupled Storage System with High- and Low-Pressure Bypass: Electrothermal Characteristics and Peak Regulating Performance

Author

Han Yang, Sun Tao, and Ma Honghe

Subjects

Process Chemistry and Technology, Chemical Engineering (miscellaneous), Bioengineering, heat-coupled storage system, high- and low-pressure bypass, peak regulation, Aspen Plus

Abstract

To achieve a balance between supply and demand during cogeneration system operation, it is necessary to improve the peak regulation capacity and regulatory flexibility of the unit. Considering the excellent performance of energy storage systems, a heat-coupled storage system with high- and low-pressure bypass is proposed to increase peak regulation capacity. Employing a 300 MW heating unit as the research object, thermal system models of a traditional-pumping steam-heating system, a high- and low-pressure bypass heating system, and a coupled system were built using Aspen Plus software. The electric heating characteristics of the three systems, as well as the peak regulation capacity and peak regulation depth of the coupled system, were analysed under different storage and heat release loads. Results indicate that the high- and low-voltage bypass system and the coupled system both improve the peak capacity and control flexibility of the unit. Moreover, the coupled system has a greater influence on the maximum thermoelectric ratio and minimum charge rate than the high- and low-voltage bypass heating system, thereby extending the range of safe operation. The peak capacity and depth of heat storage are 65.55 MW and 21.85%, respectively, while the peak capacity and the depth of the heat-release process are 39.32 MW and 13.10%.

Published

2023

2. Rapid Body-Wide Transcriptomic Turnover During Rhesus Macaque Perinatal Development

Author

Ying Zhu, Wenqian Zhang, Manman Zhao, Christoph W. Turck, Guang-Zhong Wang, and Wei Wang

Subjects

0301 basic medicine, Physiology, Period (gene), brain development, Macaque, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Molecular level, biology.animal, Physiology (medical), medicine, QP1-981, Primate, Original Research, Kidney, biology, macaque, peak regulation, developmental pattern, Human brain, biology.organism_classification, Cell biology, Rhesus macaque, 030104 developmental biology, medicine.anatomical_structure, 030217 neurology & neurosurgery, perinatal development

Abstract

An hourglass cup-shape pattern of regulation at the molecular level was detected during the development of the primate brain. Specifically, a peak of temporally differentially expressed genes around the time of birth has been observed in the human brain. However, to what extend this peak of regulation exists among species has not been investigated in great detail. Here, by integrating multiple large-scale transcriptome data from rhesus macaques, we confirmed that a similar differential expression peak exists during the development of the macaque brain. We also found that a similar peak exists during the development of other organs, such as liver, testis, kidney and heart. Furthermore, we found that distinct pathways are regulated in the peak period of those organs. Our results highlight the importance of co-evolution of diverse organs during critical periods of perinatal development in primates.

Published

2021

3. On the Way to Integrate Increasing Shares of Variable Renewables in China: Activating Nearby Accommodation Potential under New Provincial Renewable Portfolio Standard

Author

Yinhe Bu and Xingping Zhang

Subjects

nearby accommodation, Distribution board, 020209 energy, Bioengineering, renewable portfolio standard, 02 engineering and technology, 010501 environmental sciences, lcsh:Chemical technology, 01 natural sciences, lcsh:Chemistry, 0202 electrical engineering, electronic engineering, information engineering, Chemical Engineering (miscellaneous), lcsh:TP1-1185, China, Solar power, prospect analysis, 0105 earth and related environmental sciences, Flexibility (engineering), business.industry, Process Chemistry and Technology, peak regulation, Environmental economics, renewable energy, Renewable energy, Variable (computer science), Renewable portfolio standard, lcsh:QD1-999, Business, Accommodation

Abstract

More than 1.2 billion kW wind and solar power generation will be integrated in China by 2030. The new provincial renewable portfolio standard, officially implemented in 2020, establishes an efficient bridge between rapid capacity growth and limited accommodation capability. A data-driven prospect analysis framework was proposed to evaluate the activated potential under two kinds of nearby accommodation approaches and to explore the completion prospect of this new obligated quota from provincial levels. Empirical results illustrate diverse prospects across regions. Particularly, it is hard for two kinds of provinces to complete their obligated quotas merely via the single nearby accommodation approach: The first one is close to renewable energy resources but lacks flexible peak regulation capability in Northeast and Northwest China, and the other is close to the nationwide load center but lacks nearby integration from renewables in Southeast, North, and Middle China. Therefore, the pathway for the former is to activate more provincial accommodation potential either via releasing system flexibility or by substituting generation right, and the pathway for the latter is to introduce trans-regional or trans-provincial accommodation and import more renewable energy power.

Published

2021