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PJM,(available transfer capability,ATC),。
: We describe the design and implementation of a high-data-rate high-capacity digital holographic storage disk system. Various system design trade-offs that affect density and data-rate performance are described and analyzed. In the demonstration system
This paper presents the results of development and investigations of thermal characteristics of a copper loop heat pipe (LHP) with water, methanol, and ethanol as working fluids. An LHP with an effective length of 438 mm was equipped with an increased flat evaporator with dimensions of the active zone . The condenser was cooled
Abstract. The antiradical capacity of cysteamine- and cysteine-flavan-3-ol derivatives of green tea catechins bearing the pyrogallol moiety was evaluated using two stable
This is because, as more branches have been built and thus the AC power grid is significantly strengthened, the transfer capacity of the hybrid AC/DC interface under Scheme 1 is higher. Then, as a result, the curtailment of renewables in the energy-exporting area decreases, which in turn reduces the holistic electricity purchasing price and the
Therefore, even though ethanol has a lower heat transfer capacity, it is suitable for higher operating temperatures. A similar theoretical study was conducted by Huang et al. [ 34 ].
Volume holographic storage (VHS) is considered as a potential candidate for optical data storage in the next generation owing to its high storage capacity and fast access rate. [1][2] [3] In
Due to the highest electron transfer capacity of 700BMBC, 700BMFe 0-BC had the best Cr(VI) removal rate. To verify the synergy between biochar and Fe 0, LSV and EIS analyses of the composite were also conducted (Fig. 6 (D–F)).
With the increasing integration of HVDC tie-lines, the regional power systems in both the energy-exporting area and the energy-importing area have gradually become the "strong DC, weak AC" power system. A bi-level transmission expansion planning optimization model is proposed in this paper for network reinforcement of energy-exporting power grid with
Short data seek time (<100 μsec) and high transfer rates (~1 Gbit/sec) can be realized in systems with no moving parts which employ bulk photorefractive crystals as storage media.
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DOI: 10.1016/j.energy.2023.129502 Corpus ID: 264575257 High thermal storage capacity phase change microcapsules for heat transfer enhancement through hydroxylated-silanized nano-silicon carbide @article{Liang2023HighTS, title={High thermal storage
Adopting liquid metals as the working fluid, high temperature heat pipes (HTHPs) can operate at a high temperature above 750 K and have extremely high heat transfer capacity, while the most significant weakness of HTHPs is frozen startup and heat transfer limits
A benchmark sustained optical data-transfer rate of 10 Gbits/s has been successfully demonstrated. We describe the design and implementation of a high-data-rate high-capacity digital holographic storage disk system. Various system design trade-offs that affect density and data-rate performance are described and analyzed. In the
We describe the design and implementation of a high-data-rate high-capacity digital holographic storage disk system. Various system design trade-offs that affect density and data-rate performance are described and analyzed. In the demonstration system that we describe, high-density holographic recording is achieved by use of high-resolution short
Information from market players is imperfect at the time the transfer capacities have to be communicated. This comes in addition to the uncertainty on some power system parameters, as well as the uncertainty of tie-line flows due to unexpected real time events, which are always possible.
Simulation experiments on both computer-generated and real-world networks demonstrate that our strategy can enhance the transfer capacity of multiplex networks significantly, which is in good
An experiment with a loop heat pipe for high heat transfer capacity has been conducted by Maydanik et al. (2018). The result stated that after thermal tests, the loop heat pipe improves power and
Abstract. We study the problem where independent operators of queueing systems cooperate to generate a win-win solution through capacity transfer among each other. We consider two types of costs
The sharp declines of these nodes lead to a higher increase of network transfer capacity. In our strategies, we add edges between nodes which will result in shortcuts between nodes. Therefore, the average path length will be reduced and the small-world phenomenon is
Though there are certain experiments focusing on increasing the heat transfer distance in flat evaporator [27], [28], the maximum heat flux and the heat transfer capacity decreased adversely. Besides, the flat evaporator LHP shows more obvious temperature pulsation compared to those with cylindrical evaporator because of more
are located on the security boundary. In this paper, the optimization model for transfer capacity of hybrid AC/DC interface is proposed as follows. 2.1.1. Objective Function The objective function for TTC computation is given
Aiming at the 3 He-4 He mixture in the MC of DRs, the mechanism of heat and mass transfer is analyzed during the cooling process, and principles for enhancing the cooling capacity are proposed. Finally, based on the above principles, three specific strategies for regulating the cooling capacity of MC are provided.
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Heterogeneous electrode materials possess abundant heterointerfaces with a localized "space charge effect", which enhances capacity output and accelerates
This situation is typical for most energy systems in the European Union. This determines the features of the application of different methods of analysis of the transfer capacity of interfaces. In ENTSO-E the transfer capacity is
The intuitive difference between the transfer capacity regions of AC and DC tie lines is revealed from a new perspective. (2) This paper formulates a market model for the internal power network based on the proposed unified equivalent model for the external power network.
Electrochemical analysis demonstrated that 700BMBC had the highest electron transfer capacity. In the presence of Fe 0, graphitized structure in 700BMBC acted as an electron conductor, facilitating electron transfer from
Loop heat pipe (LHP) promises great application potential in electronics cooling. However, the selection of environmentally friendly working fluid remains a big issue, especially in commercial applications. Although R134a is a common refrigerant, the R134a-charged LHP is limited by small heat transfer capacity (HTC). In this work, a LHP with
High density holographic recording is achieved using high-resolution short focal length optics and correlation shift multiplexing. Sustained data transfer rates
Optical holographic data storage has become a potential candidate for the next generation of data storage technology because of its advantages of high storage capacity, fast data transfer rate, and long storage life.
The results show that the net power density of PEMFC with ramped step flow field (RSFF) exhibits an increase of up to 17.55 %, 2.82 %, and 2.29 % when compared to conventional parallel flow field (CPFF), ramp flow field (RFF), and step flow field (SFF), respectively. RSFF can achieve higher and more uniform distribution of oxygen cross the
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