Your search keyword '"Refrigerators"' showing total 10,212 results

1. Thermodynamic analysis and optimization of a condensation-driven dilution refrigerator.

Author

Cheng, Weijun, Zu, Hongye, Li, Zhiheng, Wang, Yanan, and Dai, Wei

Subjects

*CONDENSED matter physics, *DILUTION, *THERMODYNAMIC cycles, *QUANTUM theory, *REFRIGERATORS

Abstract

Dilution refrigerators are widely used in the fields of condensed matter physics and quantum technology. The condensation-driven dilution refrigerator uses a condenser operating at temperatures below the Still to liquefy the 3He vapor and achieve the circulation of 3He, which has the advantages of compact structure, lightweight, low cost, and low vibration. The published research primarily focuses on the system architecture and performance, and the research and analysis on the thermodynamic cycle are still incomplete. In this paper, the condensation-driven dilution refrigeration cycle has been clarified as a thermally driven refrigeration cycle, and the thermodynamic performances including the figure of merit and thermodynamic perfectibility are investigated. Optimizations have been made to the key components of the previous prototype, and the lowest no-load temperature of 68 mK and a cooling power of 4 μW at 100 mK were achieved. Compared with the previous prototype, the thermodynamic perfectibility of the system increased from 7.63% to 17.83%. The impact of the Still heating strategies on the system was analyzed, and a start-up strategy was proposed to speed up the cooldown process. [ABSTRACT FROM AUTHOR]

Published

2024

2. Determination of the Effect of Different Energy Classes of Household Refrigerators on the Freezing Process and the Quality Characteristics of Beef.

Author

Sarıoğlu, Hira Yüksel, Dirim, Safiye Nur, and Maltar Strmečki, Nadica

Subjects

*BEEF quality, *CLASS differences, *FREEZING, *REFRIGERATORS, *HIGH temperatures

Abstract

The household refrigerator model used for freezing processes in this study was produced in the factory in different energy classes (C, D, and E). Equal amounts of beef (10 × 10 × 2 cm; 2 × 2 × 2 cm) and minced beef (10 × 10 × 2 cm) were placed in refrigerator bags before freezing. The freezing processes were carried out by placing beef samples on the top shelf where the radial fan was located in the freezer compartment of the refrigerators. After the frozen samples were thawed at +4°C, they were cooked in a water bath at 85°C. It was determined that the samples frozen in the refrigerator belonging to the D energy class at −24°C had shorter freezing times and therefore higher freezing rates. It was observed that pH (5.54–5.72) values of samples frozen in the D energy class were higher due to lower weight loss (0.32%–6.80%) values. When their color values were examined, the redness (a∗) values (15.09–17.61) were the highest, while the yellowness (b∗) values (10.31–13.29) were the lowest in these samples. In addition, the hardness (49.00–182.74) and chewiness (16.35–71.80) values of samples frozen in Energy Class D were found to be lower, while their protein denaturation temperatures were higher due to shorter freezing times. Consequently, in this study, the effects of the difference in energy classes of refrigerators on the quality characteristics of beef samples were examined, and the refrigerator belonging to the energy class (D) that gave the best quality properties was found to be the most suitable one for freezing the beef. [ABSTRACT FROM AUTHOR]

Published

2024

3. Efficient ecological function analysis and multi-objective optimizations for an endoreversible simple air refrigerator cycle.

Author

Xu, Zijian, Ge, Yanlin, Chen, Lingen, and Feng, Huijun

Subjects

*HEAT engines, *COOLING loads (Mechanical engineering), *THERMODYNAMICS, *REFRIGERATORS, *EXERGY, *DECISION making

Abstract

Combining finite time thermodynamics and exergetic analysis, analogous to the definition of ecological efficient power for heat engines, this paper proposes a unified performance indicator for various cycles, exergy-based efficient ecological function (E ɛ ) which is defined as product of exergy-based ecological function and coefficient of performance, and introduces it into performance optimization of endoreversible simple air refrigerator cycle coupled to constant-temperature heat reservoirs. Relations among E ɛ , pressure ratio (π) and heat conductance distribution ratio (u) are derived by using numerical method. The cycle performance indicators which include cooling load (R), coefficient of performance (ɛ), and exergetic loss rate (E out/T 0) under the different maximum objective criteria are compared. Taking π as optimal variable, and taking R, ɛ, cooling load density (r), E ɛ and their combinations as optimization objectives, multi-objective optimizations, totally 15 optimization combinations, are performed by using NASG-II algorithm. The results demonstrate that, the maximum E ɛ criteria can better reflect the compromise among R, ɛ and E out/T 0. The Pareto solution sets are majorly distributed in 2.5–20 when quadru-objective optimizations are performed. The option selected by LINMAP decision-making method is closer to ideal solution when bi-objective optimization of ɛ and r is carried out. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Child in the Refrigerator: Narrative Death in 2 Kings 4:8–371.

Author

Case, M. L.

Subjects

HISTORIOGRAPHY, COMIC books, strips, etc., REFRIGERATORS, CRITICISM, VICTIMS, FEMINIST criticism, LITERARY criticism

Abstract

While many of the children who are the results of miraculous birth narratives in the Hebrew Bible proceed to lead important lives, the son promised to the Shunammite woman by Elisha in 2 Kings 4:8–37 serves no function but to be born, die, and be resurrected. In this article, the author uses the "Woman in the Refrigerator" comic book trope to examine the treatment of this child in the text as mere motivation for the protagonist of the story. The boy in 2 Kings 4:8–37 is an innocent victim who lives only to die at the whim of the biblical authors/editors. [ABSTRACT FROM AUTHOR]

Published

2024

5. Investigation of a flexible triple-evaporator domestic refrigerator/freezer with R600a with integrated economization.

Author

Liang, Changkuan, He, Dazhuang, Liu, Haotian, Oh, Jinwoo, Braun, James E., Groll, Eckhard A., and Ziviani, Davide

Subjects

*VAPOR compression cycle, *PARALLEL electric circuits, *MARKET penetration, *HEAT exchangers, *REFRIGERATORS, *PENETRATION mechanics

Abstract

• Developed a dynamic model of a triple-evaporator domestic refrigerator/freezer. • Dynamic model validated within a 2 % deviation in average power consumption. • Implemented a two-stage economized cycle and its control scheme. • Achieved 12.9 % and 80 kWh/year reduction in power and energy consumption, respectively. • Estimated 18 TWh/year in global energy savings by 2030 with 10 % market penetration. Domestic refrigerator/freezers account for approximately 6 % of all energy consumption around the globe and mainly rely on vapor compression cycles to operate. Researchers have investigated alternative cycle architectures such as dual-loop cycles and parallel circuit cycles to improve their efficiencies. Despite the demonstrated energy saving potential of these advanced cycles, additional implementation costs are often not justifiable. However, to meet forthcoming stricter energy standards while ensuring flexible multi-temperature operation of domestic refrigerator/freezers, advanced cycle architectures are needed. In this paper, a state-of-the-art bypass circuit cycle triple-evaporator domestic refrigerator freezer with R-600a and a reciprocating compressor has been used as the baseline cycle investigate an alternative cycle configuration. Specifically, this work presents a two-stage vapor-injected cycle with a multi-evaporator system to enable energy savings and cost-effectiveness. The cycle establishes two separate evaporation temperatures to better match the cabinet temperature of fresh food and freezer compartment. The reduced difference between cabinet temperature and its evaporation temperature decreases the irreversibilities in the heat exchanger and improves overall system efficiency. Moreover, the addition of the economization line from the medium temperature evaporator reduces the compressor work. To capture the complex transient behavior of both the baseline system and proposed cycle architecture with their control strategies, a dynamic model has been developed and validated with experimental data. The validated dynamic model with the baseline cycle was modified to consider the two-stage vapor-injected cycle and its control logic, and simulation results yielded up to 13 % energy consumption reduction with respect to the baseline system. [ABSTRACT FROM AUTHOR]

Published

2024

6. Thermodynamics of one- and two-qubit quantum refrigerators interacting with squeezed baths: a comparative study.

Author

Kumar, Ashutosh and Lahiri, Sourabh

Subjects

*QUBITS, *THERMODYNAMICS, *REFRIGERATORS, *QUANTUM thermodynamics, *QUANTUM coherence

Abstract

We investigate quantum non-equilibrium refrigerators with one- and two-qubit systems in a squeezed thermal bath. We characterise their performances in the presence of squeezed heat baths, in terms of their coefficients of performance, cooling rates and figures of merit. Our results show that the performance of the refrigerators is strongly influenced by the squeezing parameter and the number of qubits. The performance of the two-qubit refrigerator (TQR) is found to be better than that of the one-qubit refrigerator (OQR) under the same operating conditions. Our findings suggest that a squeezed thermal bath can be a promising resource for the design of efficient quantum refrigerators in the non-equilibrium regime. [ABSTRACT FROM AUTHOR]

Published

2024

7. Development of control system and monitoring via the internet (IoT) based on Arduino UNO on the use of condensate water in the refrigerator.

Author

Erham, Eddy, Markus, Markus, Surjanto, Ary, and Zafran, Rafa Naufal

Subjects

*INTERNET usage monitoring, *WATER use, *INTERNET of things, *REFRIGERATORS, *WATER temperature

Abstract

The condensate water in the refrigeration system is liquid of the result of condensation process, usually thrown away without being used. In this paper, to use the condensate water was designed a control system and monitoring via the internet (IoT) based on an Arduino Uno with application to a refrigerator. This design includes both the design of control system for cabin temperature and for condensate water spraying. In this case, the Arduino UNO was uploaded with control system and monitoring algorithm. The results show that the proposed control system was able to maintain the desired cabin temperature with design error in the range of 0.120C-0.130C. Meanwhile, the control system for the spraying was able to determine when the desired spraying occurred. When the spraying was set at temperature of 390C, it not only increased the COP by 10%, but also decreased the power consumption by 8.8%. Thus, based on both the obtained COP and power consumption, the method of proposed control system for the refrigerator is better than the method of existing one. [ABSTRACT FROM AUTHOR]

Published

2024

8. Experimental investigation of displacer type pulse tube refrigerator with inertance tube or orifice.

Author

Xu, Sheng and Zhu, Shaowei

Subjects

*TUBES, *REFRIGERATORS, *COOLING systems, *LOW temperatures

Abstract

• Displacer type pulse tube refrigerator with inertance tube or orifice is tested. • Efficiency of single-stage refrigerator can be improved by adding inertance tube. • The lowest temperature decreases of two-stage refrigerator from 18.9 K to 15.6 K. Displacer type pulse tube refrigerator (DPTR) can get high efficiency with strong phase shifting and acoustic work recovery to advantages. However, the optimal match of gas driving displacer can only be reached at one point, while the linear motor driving displacer has a complex structure. And for two-stage DPTR, more parameters need to be optimized such as step ratio. A well-matched displacer costs a lot and asks high quality manufacturing. In this work, an orifice and an inertance tube were added to the single-stage DPTR and two-stage DPTR as an additional adjustment parameter. For single stage DPTR, the experimental results indicate that the lowest temperature decreases from 44.7 K to 42.1 K after a suitable inertance tube was added. The cooling power can be increased with almost same efficiency by adding an orifice with appropriate opening turn. After adding an additional inertance tube of the two-stage DPTR, the lowest temperature of 15.6 K was achieved, while the lowest temperature of 15.7 K was achieved by installing an orifice to the two-stage DPTR. [ABSTRACT FROM AUTHOR]

Published

2024

9. Performance of liquid-line magnets and CNT nano-lubricant in a refrigerator with varying mass charge of R600a refrigerant.

Author

Adelekan, D. S., Ohunakin, O. S., Paul, B. S., and Jen, Tien-Chien

Subjects

*MAGNETIC fields, *REFRIGERANTS, *ATMOSPHERIC temperature, *EVAPORATORS, *REFRIGERATORS

Abstract

Improving the performance of drop-in hydrocarbon refrigerants for the increasing in-flow of conventional refrigerators to Nigeria is a necessary sustainable strategy. This experimental study investigates the enhancement limits of a liquid-line magnetic field, CNT nano-lubricant, and a combination of both on an R134a domestic refrigerator with 40–70 g each of R600a refrigerants. The study compares the performance of R600a refrigerant without enhancements (pure) and with two pairs of 3000 Gauss liquid-line mounted O-ring permanent magnets (Mag), 0.2 g L−1 concentration of CNT nano-lubricant (Nano), and both liquid-line magnet and CNT nano-lubricant (Mag-Nano). Test parameters include evaporator air temperature, discharge pressure, power consumption, coefficient of performance (COP), and total equivalent warming impact (TEWI). The results show that enhancement methods led to higher COP in the range of 16.64–42.38%. At the same time, evaporator air temperature, discharge pressure, power consumption, and TEWI were lower by 9.76% to 20.96%, 17.75% to 34.26%, 5.22% to 13.42%, and 5.88% to 10.86%, respectively. In conclusion, the proposed enhancement techniques in the refrigeration system provide normal, safe, and efficient operation. [ABSTRACT FROM AUTHOR]

Published

2024

10. Modeling and Analysis of Flow Through the Orifice of Still in Dilution Refrigerator.

Author

Wang, De-Ming, Cha, Wei-Pei, Ding, Wei-Dong, Xu, Dong-Ming, Han, Wan-Long, Lu, Jian-Xin, and Zhan, Qin

Subjects

*SUPERFLUIDITY, *DILUTION, *SPEED, *HELIUM, *REFRIGERATORS

Abstract

The cooling capacity of a typical dilution refrigerator is mainly determined by the circulating flow of the He-3 in the system, which is usually realized by the external circulation pump. In order to increase the concentration of circulating He-3, the still often take the orifice structure to limit the influence of the superfluid helium film, and this structure will also have a certain impact on the flow rate of He-3. This paper summarizes the flow rate models of each part of the orifice structure, and establishes a model related to the influence of pumping speed and the diameter of orifice on the flow rate of circulating He-3. The relationship between pumping speed and flow rate is developed and the relation is divided into three phases for detailed analysis. It is found that the flow rate and the concentration of circulating He-3 increase first and then decrease with the increasing diameter of orifice at a certain pumping speed, and the possible reasons for this phenomenon are analyzed. The results indicate that there is an optimal orifice diameter at a determined pumping speed. [ABSTRACT FROM AUTHOR]

Published

2024

11. INSUFICIÊNCIA DE DEMANDA EXTERNA E CRISE NO MERCADO FRIGORÍFICO MATO-GROSSENSE.

Author

César de Moraes, Fabrício, Nicolao de Siqueira, Rosicley, Warley, Esdras, and de Carvalho Vieira, Anderson Nunes

Subjects

STATISTICS, REFRIGERATORS, PROFITABILITY, MACROECONOMICS, HYPOTHESIS, MACROECONOMIC models

Abstract

Copyright of Revista Foco (Interdisciplinary Studies Journal) is the property of Revista Foco and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

12. Development of 400-μW cryogen-free dilution refrigerators for quantum experiments.

Author

Guan, Xiang, Fan, Jie, Bian, Yong-Bo, Cheng, Zhi-Gang, and Ji, Zhong-Qing

Subjects

*QUANTUM computing, *REFRIGERATORS, *SUPERCONDUCTING magnets, *ASTRONOMY, *DILUTION, *MAGNETS

Abstract

We have successfully developed cryogen-free dilution refrigerators with medium cooling power that can be applied to quantum experiments. Breakthroughs have been made in some key technologies and components of heat switches and dilution units. Our prototype has been running continuously and stably for more than 100 hours below 10 mK, with a minimum temperature of 7.6 mK and a cooling power of 450 μW at 100 mK. At the same time, we have also made progress in the application of dilution refrigerators, such as quantum computing, low-temperature detector, and magnet integration. These indicators and test results indicate good prospects for application in physics, astronomy, and quantum information. [ABSTRACT FROM AUTHOR]

Published

2024

13. Enhancing the coefficient of performance (COP) of mini refrigerators based on thermoelectric units (Peltier).

Author

ELNAGGAR, Amal E. M., SHARAF, Soliman, Abedel REHIM, Zeinab S., MUSTAFA, Hassan M. M., and EL ZOGHBY, Helmy M.

Subjects

ENERGY industries, REFRIGERATORS, THERMOELECTRIC effects, POLLUTANTS, WASTE products

Abstract

Copyright of Energy Policy Journal / Polityka Energetyczna is the property of Mineral & Energy Economy Research Institute of the Polish Academy of Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

14. Analysis of Pressure Fluctuation of a Pump-Turbine with Splitter Blades on Small Opening in Turbine Mode.

Author

Xiao, Wei, Chen, Liu, Ren, Shaocheng, Yan, Bin, Liu, Zishi, and Xiao, Yexiang

Subjects

*DRAFT tubes, *UNSTEADY flow, *TURBINES, *NUMERICAL calculations, *PUMPING machinery, *REFRIGERATORS

Abstract

Unstable flow in a pump-turbine can cause pressure pulsation, and the resulting vibration deteriorates the stability and operating safety of the unit. This study conducted three-dimensional numerical calculations of the overall flow passage of a pump-turbine with splitter blades under the small guide vane opening, and the unsteady flow characteristics of the turbine were investigated. The results showed that the pressure fluctuation was more severe at lower head operating conditions with lower efficiency, especially in the vaneless area (the runner blade passages). Under the lower head condition, the proportion of 12 times the rotational frequency (12 f/fn) increased in the vaneless area, and the amplitude of 1 f/fn as well as 2 f/fn became larger in the runner blade channel, with more space occupied by vortices and reflux areas. A spiral vortex rope formed in the draft tube, increasing the proportion of 0.4 f/fn and 0.7 f/fn pressure pulses. [ABSTRACT FROM AUTHOR]

Published

2024

15. Many-excitation removal of a transmon qubit using a single-junction quantum-circuit refrigerator and a two-tone microwave drive.

Author

Teixeira, Wallace, Mörstedt, Timm, Viitanen, Arto, Kivijärvi, Heidi, Gunyhó, András, Tiiri, Maaria, Kundu, Suman, Sah, Aashish, Vadimov, Vasilii, and Möttönen, Mikko

Subjects

*QUBITS, *QUANTUM computers, *REFRIGERATORS, *MICROWAVES, *ENVIRONMENTAL engineering

Abstract

Achieving fast and precise initialization of qubits is a critical requirement for the successful operation of quantum computers. The combination of engineered environments with all-microwave techniques has recently emerged as a promising approach for the reset of superconducting quantum devices. In this work, we experimentally demonstrate the utilization of a single-junction quantum-circuit refrigerator (QCR) for an expeditious removal of several excitations from a transmon qubit. The QCR is indirectly coupled to the transmon through a resonator in the dispersive regime, constituting a carefully engineered environmental spectrum for the transmon. Using single-shot readout, we observe excitation stabilization times down to roughly 500 ns, a 20-fold speedup with QCR and a simultaneous two-tone drive addressing the e–f and f0–g1 transitions of the system. Our results are obtained at a 48-mK fridge temperature and without postselection, fully capturing the advantage of the protocol for the short-time dynamics and the drive-induced detrimental asymptotic behavior in the presence of relatively hot other baths of the transmon. We validate our results with a detailed Liouvillian model truncated up to the three-excitation subspace, from which we estimate the performance of the protocol in optimized scenarios, such as cold transmon baths and fine-tuned driving frequencies. These results pave the way for optimized reset of quantum-electric devices using engineered environments and for dissipation-engineered state preparation. [ABSTRACT FROM AUTHOR]

Published

2024

16. Performance analysis of a vapor injection linear compressor in a dual-temperature zone refrigerator.

Author

Li, Xuan, Zou, Huiming, Tang, Mingsheng, Hui, Yao, and Hu, Haitao

Subjects

*COMPRESSORS, *VAPORS, *REFRIGERATORS, *DEATH rate

Abstract

• A dual-temperature zone refrigerator driven by VI linear compressor is proposed. • A numerical model of VI linear compressor is established and validated. • The refrigeration characteristics of the compressor and system are analyzed. • The modulating strategy of VI compressor for refrigeration is proposed. • The effects of key parameters on the refrigeration characteristics are investigated. The vapor injection linear compressor exhibits a distinctive mass flowrate distribution characteristic compared to other vapor injection compressors, making it promising for application in dual-temperature zones refrigerating systems. In this study, a novel system of dual-temperature zone refrigerators featuring two parallel evaporators is proposed, and numerical models of the vapor injection linear compressor and its system are established, and then validated by experimental results. Theoretical analysis is conducted to explore the cooling performance and capacity-modulating characteristics of the system. Compared to traditional refrigeration systems, the vapor injection of medium-pressure refrigerant enhances the cooling capacity and performance at a large piston stroke while deteriorating the freezing capacity at a small piston stroke. This system offers the flexibility of adjusting the cooling ratio by modulating supply voltage and driving frequency to meet the cooling requirements. Correspondingly, special control strategies for this kind of system for the best performance are proposed in this study. Additionally, the structural parameters significantly influence the cooling performance: a larger injection area and a smaller distance to the top death center prove to be more advantageous for overall cooling performance. This research provides valuable insights for optimizing the structural parameters and control strategies, serving as a beneficial reference for future innovative refrigeration technologies. [ABSTRACT FROM AUTHOR]

Published

2024

17. Evaluation of Storage Stability and Quality Changes of Fish Muscle (Pangasianodon hypothalamus) Preserved in Fabricated Portable Solar Cooler and Domestic Refrigerator.

Author

Biswas, Olipriya

Subjects

*LOW density polyethylene, *REFRIGERATORS, *CLEAN energy, *HYPOTHALAMUS

Abstract

Background: This study was carried out to evaluate the quality changes and storage stability of fish muscle (Pangasianodon hypothalamus) preserved in fabricated portable solar cooler and domestic refrigerator. Methods: Fish muscle from Pangasianodon hypothalamus were studied, keeping it in a fabricated portable solar cooler and in a domestic refrigerator at 5°±1°C to compare the shelf-life and quality of fish muscles. The fish muscle was packed separately in LDPE (low density polyethylene) packets and stored in a solar cooler and domestic refrigerator up to 7 days to compare the different physicochemical, microbiological and sensory parameters on 0, 3rd and 7th day. Result: The results revealed that there were non-significant changes (P>0.05) observed for different parameters during the storage periods in both solar cooler and domestic refrigerator. In contrast to the domestic refrigerator requiring electricity for functioning, solar cooler requires green energy for the same which is abundant and free of cost, thus justifying its economical sustainability. Finally, from the present study it was concluded that the preservation of fish in a portable solar cooler system is thus economically suitable, feasible and acceptable up to 7 days as compared to domestic refrigeration method at controlled temperature. [ABSTRACT FROM AUTHOR]

Published

2024

18. Research progress on refrigeration technologies of car refrigerator.

Author

Feng, Yinglong, Zhang, Ankuo, Xie, Fang, Han, Yinan, and Liu, Gengchen

Subjects

*REFRIGERATORS, *REFRIGERATION & refrigerating machinery, *MEDICAL equipment, *AUTOMOBILES

Abstract

With the improvement of the national economic level and the diversity of medical equipment needs, the car refrigerator as an important carrier in the cold chain logistics link is rapidly developed. According to the different applications, there are differences in the refrigeration technologies and cooling capacity of car refrigerators. Around car refrigerators, the development status of car refrigerator refrigeration technologies is reviewed, the characteristics and functions of car refrigerators are introduced, the mechanism and characteristics of several refrigeration technologies under different scenarios are studied, and the potential development and application directions of car refrigerators with different refrigeration technologies are summarized. The research results are of certain practical significance to the improvement of the last-mile of cold chain logistics. [ABSTRACT FROM AUTHOR]

Published

2024

19. A Detection Method Combining Machine Vision And Resistance Analysis for the Wiring Harnesses of Refrigerator Temperature Sensors.

Author

Shijian Huang, Shiyin Ding, Shengzhao Yuan, Mingming Li, Yong Tan, Fan Yue, and Suihu Dang

Subjects

COMPUTER vision, TEMPERATURE sensors, IMAGE sensors, ELECTRIC wiring, REFRIGERATORS, WIRE, MANUFACTURING processes

Abstract

It is the refrigerator that is frequently used in homes. Freezing and refrigerating temperature sensors are significant temperature-sensing components in the refrigerator. However, it is simple to insert the temperature sensor wires erroneously during the manufacturing process. Currently, there is no effective method to detect the correctness of the wiring harnesses. We propose a novel detection method that combines machine vision and resistance analysis for the wiring harnesses of refrigerator temperature sensors. We utilized machine vision technology to determine the color and insertion position of each wire in the wiring harnesses. We distinguish the types of sensors by analyzing the resistance range of the temperature sensors. We combine two approaches to detect the wiring harnesses connecting the temperature sensors. The experimental results demonstrate that the proposed method can effectively detect the correctness of the wiring harnesses connecting the temperature sensors, and the accuracy reaches 99.19%. The proposed method has a good generalization in other electrical wiring harness detection problems. [ABSTRACT FROM AUTHOR]

Published

2024

20. Thermodynamic and Environmental Analysis of Hydrocarbon Refrigerants as Alternatives to R134a in Domestic Refrigerator.

Author

Kadhim, S. A.

Subjects

HYDROCARBON analysis, EXERGY, REFRIGERANTS, ENVIRONMENTAL impact analysis, REFRIGERATORS, HEAT pipes, THERMAL properties

Abstract

The process of phasing out of medium and high global warming potential refrigerants is accelerating in all areas of refrigeration, particularly since the European F-Gas Regulation No. 517/2014 and the ensuing Kigali amendment went into effect. Hydrocarbon refrigerants are being considered as suitable alternatives due to their low global warming potential and excellent thermal properties, but due to their flammability, safety precautions must be followed. This theoretical study contributes to the evaluation of the thermal and environmental impact of hydrocarbon refrigerants as drop-in alternatives to R134a in domestic refrigerator. In order to conduct an analysis of energy, exergy, and environmental factors, R134a and all hydrocarbons refrigerants proposed by ASHRAE--R290, R600, R600a, R601, R601a, and R1270--were examined as operating fluids used in a domestic refrigerator with a cooling capacity of 157 W and constant condenser temperature of 40°C and variable evaporator temperature every 5°C between -5 and -30°C. The results revealed that all the alternative refrigerants except R601 and R601a have higher thermal and environmental performance than R134a and can be used after refrigerator compressor replacement. [ABSTRACT FROM AUTHOR]

Published

2024

21. Intelligent Control Based on Usage Habits in a Domestic Refrigerator with Variable Speed Compressor for Energy-Saving.

Author

Belman-Flores, Juan M., Hernández-Fusilier, Donato, García-Pabón, Juan J., and Rodríguez-Valderrama, David A.

Subjects

INTELLIGENT control systems, FUZZY control systems, REFRIGERATORS, HABIT, COMPRESSORS, INTELLIGENT buildings, GAS power plants, COOLING systems

Abstract

Maintaining adequate temperatures for preserving food in a domestic refrigerator is a task that is affected by several factors, including the daily use of the appliance. In this sense, this work presents the development of a novel control system based on fuzzy logic that considers usage habits such as the amount of food entering the refrigerator and the frequency of opening doors. Thus, the control comprises input variables corresponding to the internal temperatures of both compartments, the thermal load entered, and the refrigerator door-opening signal. By simulating the usage habits of a refrigerator with a variable-speed compressor, the control performance was evaluated. The results showed that implementing fuzzy control using usage habits was robust enough to maintain adequate thermal conditions within the compartments and a lower thermal fluctuation concerning the reference control of the refrigerator (factory control). In terms of energy, the fuzzy control resulted in an energy saving of 3.20% with the refrigerator empty (without thermal load) compared to the reference control. On the other hand, the individual integration of the thermal load in the fuzzy control resulted in 2.08% energy savings and 5.45% for the integration of the thermal load compared to the reference control. Finally, considering the combination of usage habits, the fuzzy control presented a higher energy consumption than the reference control, around 9.7%. In this case, the fuzzy control maintained more favorable thermal conditions in both compartments, whereas the reference control presented a warmer thermal condition in the freezer. [ABSTRACT FROM AUTHOR]

Published

2024

22. Effect of Sodium Laureth Sulfate on Contact Angles of High-Impact Polystyrene and Acrylonitrile–Butadiene–Styrene from Recycled Refrigeration Equipment.

Author

Malinowska, Benita, Munoz Esteban, Julio León, Pakhlov, Evgeniy, and Terpiłowski, Konrad

Subjects

SODIUM sulfate, POLYSTYRENE, DRINKING water, REFRIGERATION & refrigerating machinery, WETTING, CONTACT angle

Abstract

This paper investigates the effects of sodium laureth sulfate (SLES) on the wettability of the surface of the two most common recycled plastics in refrigeration equipment: HIPS (high-impact polystyrene) and ABS (acrylonitrile–butadiene–styrene). These plastics, in the form of flakes, were identified on the basis of their FTIR spectra, and then, they were subjected to a study of contact angles using the sessile droplet method. The solutions for the angle analysis included tap water with the addition of SLES. The results of this study showed that at SLES concentrations of 0.1 g/L and 0.2 g/L, the differences in the contact angles for HIPS and ABS were 10.76° and 10.10°, respectively. This research confirmed the potential of using SLES as a support for the flotation separation of plastics with similar densities and surface characteristics, such as HIPS and ABS. [ABSTRACT FROM AUTHOR]

Published

2024

23. An empirical study of the electric solar refrigerator based on Iraqi's environment.

Author

Jaddoa, Ameer Abed

Subjects

*PHOTOVOLTAIC power systems, *EMPIRICAL research, *POWER resources, *BUILDING-integrated photovoltaic systems, *REFRIGERATORS

Abstract

A Photovoltaic DC and AC cooler is investigated in this study, and an exergic assessment was performed on both the fridge and the Photovoltaic panels. To preserve stability, an empirical study is carried out in a test site represented by a controlled room environment at 25 °C, 28 °C, 31 °C, and 34 °C. A DC and AC-controlled power supplies were employed to govern the refrigerator. Throughout this study, it is revealed that the PV system suffered the most exergic loss in this investigation, accounting for around 86.23 per cent of the total. These losses are attributed to the thermal and electrical losses of the PV panel, thus it's critical to lower the cell temperature to increase the PV panel's effectiveness. At room temperature, the lowest losses are recorded with a Coefficient of Performance (COP) of 0.19 and 0.15 for AC and DC schemes, respectively. Also, it is inferred that the load does not affect the PV panel performance according to the PV effectiveness of the system which was evaluated for two months. Declining the ambient temperature could be maximized solar efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

24. Machine learning-based virtual sensors for reduced energy consumption in frost-free refrigerators.

Author

Alcaraz, Alejandro, Ilare, Dennis, Mansutti, Alessandro, and Cascini, Gaetano

Subjects

MACHINE learning, ENERGY consumption, REFRIGERATORS, DETECTORS, ENERGY industries

Abstract

This study explores Machine Learning (ML) integration for household refrigerator efficiency. The ML approach allows to optimize defrost cycles, offering energy savings without complexity or cost escalation. The paper initially presents a State-of-the-Art of ML potential to improve functionality and efficiency of refrigerators. Since frost is the cause of significant energy losses, a ML-based Virtual Sensor was developed to predict frost formation on the evaporator also in low -level refrigerators. The results show the environmental significance of ML in enhancing appliance efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

25. Study the qualities characteristics of stored quail eggs in the refrigerator which it's fed with Aloe vera.

Author

Hasan, Mokhalad Oraibi, Al-Kaisi, Haitham Rajab Manhee, Al-Samrai, Muna K., and Aljumaily, Tareq Khalaf Hasan

Subjects

*ALOE vera, *EGGSHELLS, *QUAILS, *EGGS, *WATER levels, *DRINKING water, *REFRIGERATORS, *POULTRY breeding

Abstract

A current study conducted in the quail house that affiliated of College of Agriculture in Tikrit University to know the effect of fed quail birds on Aloe vera on some qualities characteristics of stored eggs in refrigerator for three weeks. The first treatment was a control (without supplementation), but the second, third and fourth treatments, the aqueous extract of Aloe vera leaves gel was added to the drinking water at levels of 5, 10, and 15%, respectively. After two months of age, the eggs were collected and stored in the refrigerator for three weeks, then the qualities characteristics of eggs (external and internal) were measured. The results of the study showed a significant decrease (P≤0.05) in the mean of egg weight and shell weight for the fourth treatment compared with control treatment and an increase in the average shell thickness for the second treatment compared with control treatment. The treatments did not differ significantly (P≤0.05) among them in the egg shape, the mean diameter and albumin weight and the diameter of the yolk decreased for the third and fourth treatment compared with the control treatment and the treatments did not differ between them significantly (P≤0.05) in the height, index of albumin and yolk and Hugh unit. We concluded from the study that feeding quails on aqueous extract of Aloe vera gel kept the diameter of the yolk from expanding during the storage period, in addition to increasing the thickness of the eggshell. [ABSTRACT FROM AUTHOR]

Published

2024

26. Evaluating performance of thermoelectric cooler with conventional vapour compression refrigerator using SES36 refrigerant.

Author

Eswaravelu, Devandiran, Mohan, Udayakumar, and Narayanagounder, Sellappan

Subjects

*VAPORS, *WATER temperature, *REFRIGERATORS, *REFRIGERANTS, *THERMOELECTRIC generators

Abstract

This article contains information on the performance analysis of a thermoelectric cooler with a vapor compression refrigerator (VCR). The objective of this study is to investigate the performance of a thermoelectric cooler with a VCR using SES36 refrigerant. Tests were conducted to determine the co-efficient of performance (COP) of a thermoelectric cooler with a VCR. Water at a rate of 1.0 liter per minute and a temperature of 27⁰C was circulated at the inlet of a conventional refrigerator evaporator. The results show that the COP of the thermoelectric cooler with the VCR using SES36 refrigerant was 3.2. The water temperature decreased at a faster rate in the thermoelectric cooler with the VCR using SES36 refrigerant. The results also show that the time taken for cooling the water temperature from 27⁰C to 15⁰C was 35 min in the thermoelectric cooler with the VCR using SES36 refrigerant. The final results were analyzed for the performance of the thermoelectric cooler with VCR for SES36 refrigerant. It was found that using SES36 refrigerant provided higher performance in the thermoelectric cooler with the VCR. [ABSTRACT FROM AUTHOR]

Published

2024

27. Evaluating an automated temperature-monitoring system in medicine and vaccine storage facilities of a hospital network

Author

Zamani, Mazdak and Wembridge, Paul

Published

2022

28. Chinese Spies Hacking Trump's Phone, Asking Him If His Refrigerator's Running

Subjects

Verizon Communications Inc., Telecommunications services industry, Refrigerators, Computer hackers, Communications industry, Telecommunications services industry, Hacker, Consumer news and advice, General interest

Abstract

(https://substackcdn.com/image/fetch/f_auto,q_auto:good,fl_progressive:steep/https%3A%2F%2Fsubstack-post-media.s3.amazonaws.com%2Fpublic%2Fimages%2Fe31af024-dec3-4969-ad03-839173b15a64_640x480.jpeg) 'Xi, baby, you know I love you.' Imagine the kind of gag-inducing content you could find on Donald Trump's phone. Searches for skin bronzer. Up-skirt shots of every attractive [...]

Published

2024

29. Enhance your wine experience with the right wine cooler

Subjects

Refrigerators, Business, general

Abstract

Wine coolers are specialised appliances for storing wine at the optimal temperature and humidity levels. Whether you are a casual wine drinker or a serious collector, having the right storage [...]

Published

2024

30. KEEPING COOL WITH DOMETIC

Subjects

Refrigerators, Energy management systems

Abstract

REGULARS GETAWAY GEAR KEEPING COOL WITH DOMETIC Dometic launched the NRX Series of upright compressor-cooled NRX refrigerators in late 2023. The NRX series is available in five sizes (50L, 60L, [...]

Published

2024

31. On the coupling of three-level quantum refrigerators in the weak coupling limit.

Author

Abdou Chakour, M H Ben, El Allati, A, and Hassouni, Y

Subjects

*QUANTUM correlations, *REFRIGERATORS, *QUBITS

Abstract

We propose a model of two identical autonomous quantum refrigerators that interact through their qubits coupled to cold thermal baths. We consider the same specific disposition for each refrigerator related to a three-level system coupled to different thermal baths and, in turn, to a qubit as the object to be cooled. By coupling the two systems, we show that under certain conditions on the model parameters, the devices can operate in the regime of an independent autonomous quantum refrigerator or be subject to an adjustment of the thermodynamic performances. We further investigate the correlations induced by the interaction between the two refrigerators, and illustrate their behavior with respect to their thermodynamic performances. We have found that adjusting the different interaction constants of the model can lead to an evolution of the quantum correlations of the two machines that is inversely related to the behavior of the thermodynamic quantities of both refrigerators. However, this is not necessarily the case when the temperatures of the model are considered as the reference parameters. [ABSTRACT FROM AUTHOR]

Published

2024

32. Numerical study on the self-pressurization capacity of radial gas wave refrigerator.

Author

Feng, Qing, Ji, Yawen, Yu, Yang, Wang, Jianli, and Hu, Dapeng

Subjects

*EDDY current losses, *REFRIGERATORS, *STRUCTURAL optimization, *WAVE energy, *HEAT transfer

Abstract

• Preliminary exploration of radial wave rotors in refrigeration applications. • Radial configuration simplifies refrigeration cycle. • Two strategies are posited to augment equipment adaptability. • The dynamics of radial heat transfer and power consumption have been investigated. • The refrigeration coefficient peaks when φ = φ i and n = 2750 rpm. Gas wave refrigeration technology is an innovative refrigeration technique that harnesses pressure waves to facilitate energy exchange. In this paper, the wave rotor undergoes a transformation from its original axial structure to a radial structure. The self-pressurization capability of radial structure is proven to facilitate autonomous gas circulation, obviating the necessity for a drive fan, according to numerical simulations. We explore two methods to regulate the cycling ability for improved adaptability: altering exhaust ports and controlling exhaust resistance. The former offers a broader range of adjustment, while the latter is suitable for fine-tuning due to associated throttling pressure loss. Additionally, the mechanism of radial heat transfer is probed, revealing its intensification correlating with rising rotational speeds. The study also delves into the power consumption dynamics unique to the radial configuration. Influenced by these two factors, the device attains its peak efficiency near the specific internal circulation state of φ = φ i. The optimal rotational speed is determined to be 2750 rpm, which offers a balance between eddy current loss and power consumption. This study demonstrates that a radial gas wave refrigerator enables the integration of the pressurization and refrigeration processes. It serves as the foundation for subsequent structural optimization and experimental research on radial configurations. [ABSTRACT FROM AUTHOR]

Published

2024

33. Cryogenic distribution system design for cryomodules and cavities test in HIAF project.

Author

Xian Jin, Wang, Shu Ping, Chen, Jun, Wen, Peng, Zhang, Feng, Bai, Da Jun, Fan, Ya Nan, Li, Xiao Fei, Niu, and Junhui, Zhang

Subjects

CRYOELECTRONICS, HEAVY ions, REFRIGERATORS, HELIUM

Abstract

High-intensity heavy-ion accelerator facility (HIAF) is an accelerator-driven high-current heavy ion facility, currently under construction in Guangdong, China. The proton linear accelerator of HIAF linac has 96 superconducting cavities and 17 cryomodules cooled by 2 K saturated superfluid helium. Cryogenic tests should be carried out in a test cryogenic system prior to the online operation of each cavity and cryomodule. The cryogenic distribution system (CDS) is the main part of the test cryogenic system, which is used for transporting cryogenic fluid between helium refrigerator and test terminals. A specific CDS is developed due to the long cryogenic test time. Each test terminal can be independently cooled and heated up, saving quite a bit of time without impacting the others. This article provides comprehensive explanations for the process design, process analysis, and special structure design which enhance the system's maintainability. Furthermore, particular technical designs, such as measuring system, helium guard, and elimination of thermoacoustic oscillations, are described in detail. [ABSTRACT FROM AUTHOR]

Published

2024

34. Dynamic acoustic optimization of pulse tube refrigerators for rapid cooldown.

Author

Snodgrass, Ryan, Kotsubo, Vincent, Backhaus, Scott, and Ullom, Joel

Subjects

COOLDOWN, ACOUSTIC couplers, REFRIGERATORS, STARTLE reaction, QUANTUM computing, LOW temperatures

Abstract

Pulse tube refrigerators are a critical enabling technology for many disciplines that require low temperatures. These refrigerators dominate the total power consumption of most modern cryostats, including those that reach millikelvin temperatures using additional cooling stages. In state-of-the-art commercial pulse tube refrigerators, the acoustic coupling between the driving compressor and the refrigerator is fixed and optimized for operation at base temperature. We show that this optimization is incorrect during the cooldown process, which results in wasted power consumption by the compressor and slow cooldown speed. After developing analytic expressions that demonstrate the need for acoustic tuning as a function of temperature, we dynamically optimize the acoustics of a commercial pulse tube refrigerator and show that the cooldown speed can be increased to 1.7 to 3.5 times the original value. Acoustic power measurements show that loss mechanism(s)—and not the capacity of the compressor—limit the maximum cooling available at high temperatures, suggesting that even faster cooldown speeds can be achieved in the future. This work has implications for the accessibility of cryogenic temperatures and the cadence of research in many disciplines such as quantum computing. Pulse tube refrigerators are a critical enabling technology for many disciplines that require low temperatures, including quantum computing. Here, the authors show that dynamically optimizing the acoustic parameters of the refrigerator can improve conventional cooldown speeds up to 3.5 times. [ABSTRACT FROM AUTHOR]

Published

2024

35. Numerical study on a Franchot double-acting heat-driven thermoacoustic-Stirling cryocooler for natural gas liquefaction.

Author

Chang, Depeng, Sun, Yanlei, Hu, Jianying, Zhang, Limin, Chen, Yanyan, and Luo, Ercang

Subjects

*NATURAL gas liquefaction, *HEAT engines, *STIRLING engines, *REFRIGERATION & refrigerating machinery, *ELECTRICAL energy, *ENERGY dissipation, *REFRIGERATORS

Abstract

Compact heat-driven cryocoolers can harness the thermal energy produced by burning a small quantity of natural gas to accomplish liquefaction. This addresses the requirements of distributed natural gas stations in remote locations. This paper introduces a Franchot double-acting heat-driven thermoacoustic-Stirling cryocooler designed for natural gas liquefaction. It conducts a comparative analysis of the mechanical and electrical systems, focusing on the acoustic field, available energy loss, and performance. Simulation results indicate that the optimized mechanical configuration system achieves peak performance with a piston area ratio of 0.84 and a piston phase angle of 90°. It yields a cooling power of 1964 W@130 K when driven by an 873 K heat source, resulting in an overall system efficiency of 28.3%. This marks a notable enhancement compared to current thermoacoustic systems. While the electrical configuration provides superior stability, the performance is constrained by significant losses in acoustic-electric conversion of linear alternators and compressors. To further enhance efficiency, it is worthwhile to establish direct power transfer between the pistons, for example, by aligning the expansion piston and compression piston coaxially. The evolved duplex configuration eliminates the loss from electrical energy conversion, leading to a remarkable 64.7% increase in overall efficiency. Simultaneously, this evolutionary approach offers a new perspective to elucidate the inherent connections among Stirling heat engines of Franchot double-acting and duplex. It provides valuable theoretical insights for the subsequent analysis and design of Stirling heat-driven refrigerators or cryocoolers. • A Franchot double-acting heat-driven thermoacoustic-Stirling cryocooler is proposed. • A notable enhancement compared to current thermoacoustic systems. • The electrical configuration provides stability but limited by energy conversion losses. • The evolved duplex configuration eliminates the loss of energy conversion. [ABSTRACT FROM AUTHOR]

Published

2024

36. EXPERIMENTAL STUDY ON REFRIGERATION SYSTEM'S PERFORMANCE OF THE REFRIGERATOR TRUCK USING R404A REFRIGERANT.

Author

Zhiyong SU, Kunzheng ZHAO, Haijun LI, and Yibo ZHANG

Subjects

*REFRIGERANTS, *REFRIGERATION & refrigerating machinery, *COLD storage, *REFRIGERATORS, *LOW temperatures

Abstract

A refrigerated system experimental bench using R404A as the refrigerant was built to address the current issues of high compressor discharge temperature and poor refrigeration performance of refrigerated systems for cold storage. The effects of compressor speed and temperature changes within the storage on the main refrigeration performance parameters of the system were studied and analyzed. The results show that when the rotational speed is increased from 2500-4500 rpm under the conditions of 32 °C outside and 0 °C inside, the highest system exhaust temperature is 84.3 °C, which is lower than 90 °C, and the maximum system COP is 3.86, and when the compressor speed is increased from 3500 rpm under the conditions of -5 °C to 5 °C, the system exhaust temperature is lower than 90 °C. The COP can reach 2.74, especially at -5 °C. [ABSTRACT FROM AUTHOR]

Published

2024

37. Light Gradient Boosting Machine (LightGBM) to forecasting data and assisting the defrosting strategy design of refrigerators.

Author

Ni, Chenxi, Huang, Haihong, Cui, Peipei, Ke, Qingdi, Tan, Shiyao, Ooi, Kim Tiow, and Liu, Zhifeng

Subjects

*REFRIGERATORS, *RELIABILITY in engineering, *STATISTICAL correlation, *TEST reliability, *MACHINERY

Abstract

This study proposes using the Light Gradient Boosting Machine (LightGBM) to improve the defrosting control strategy in frost-free refrigerators. By analyzing data and optimizing control parameters, the aim is to enhance defrosting performance and reduce energy consumption using the time–temperature difference (t–dT) approach. The research involves analyzing performance and reliability data for two control strategies (time–temperature (t–T) and t–dT), creating three feature sets (FS1, FS2, and FS3) based on correlation analysis, and employing LightGBM models to forecast datasets. The control parameter threshold (Δ T op,s) is optimized using the LightGBM-based data. The key findings indicate that the t–dT strategy with a fixed threshold (7.8 °C) outperforms the t–T method in efficiency at an ambient temperature of 38 °C. At 10 °C, the performance tests show no significant difference, but the t–T method performs better in reliability tests. The FS1-based data from the t–dT strategy in the reliability test at 10 °C are considered ideal input, and the LightGBM models generate FS2-based and FS3-based data for evaluation. The optimized t–dT defrosting strategy achieves favorable refrigeration conditions with minimal power consumption and optimal cooling capacity. The ideal Δ T op,s threshold, based on data for the idealized frosting condition, is determined to be 8.3 °C. [ABSTRACT FROM AUTHOR]

Published

2024

38. Experimental and numerical study on characteristics of super-linear mass flow rate and asymmetric cavitation in novel rotary-baffle curved-channel electronic expansion valve for refrigerator.

Author

Yang, Yikun, Huang, Dong, Zhao, Rijing, and Wei, Xinghua

Subjects

*CAVITATION, *CENTRIFUGAL force, *VALVES, *REFRIGERATORS, *CAPILLARY tubes, *COOLING loads (Mechanical engineering)

Abstract

Capillary tubes, as the expansion devices in refrigerators, are unable to actively match cooling capacity and load, which will increase the energy consumption. Moreover, due to the limitations of miniature valve needle machining accuracy and structural strength, orifice-type EEVs are not suitable for low mass flow rate in refrigerators. A novel rotary-baffle curved-channel electronic expansion valve (RBCC-EEV) is proposed to replace capillary tube to achieve flow regulation in household refrigerators. Based on the special structure and regulation principle of RBCC-EEV, characteristics of mass flow rate and cavitation are studied experimentally and numerically, respectively. Experimental results show that, as opening ratio (OR) increases, the synchronous changes in the inlet area and length of the curved channel lead to a super-linear variation in mass flow rate, with increase rate growth from 0.018 kg h−1 OR−1 to 0.061 kg h−1 OR−1. Numerical results show that, under centrifugal forces, the pressure difference along the normal direction of the streamline leads to the differences in degree of cavitation, which is called asymmetric cavitation phenomenon. In addition, under the influence of this phenomenon, the prematurely cavitation of refrigerant near the inside surface will block the inlet of curved channel early, resulting in a 3.4 % decrease in mass flow rate. [ABSTRACT FROM AUTHOR]

Published

2024

39. Effective image processing-based technique for frost detection and quantification in domestic refrigerators.

Author

Rahman, Hammad ur, Akbar, Hassan, Malik, Anjum Naeem, Nawaz, Tahir, and Lazoglu, Ismail

Subjects

*FROST, *IMAGE analysis, *IMAGE processing, *SOIL freezing, *REFRIGERATORS, *IMAGE sensors

Abstract

• The presence of frost on the evaporator coil degrades the cooling performance. • K-means image segmentation-based frost detection and thickness estimation is proposed. • Frost thickness was estimated using image analysis with an error of 13.69%. • Results were compared with conventional sensors and existing image processing methods. • The method can serve as a reliable feedback source for efficient defrosting. Frost accumulation is a common problem when moisture in the air condenses and freezes on surfaces like heat exchange tubes of refrigeration units. Frost accumulation negatively impacts heat exchange by disrupting the process, reducing system efficiency, and causing operational issues. Therefore, defrosting is mandatory to maintain the rated performance; however, modern automatic defrosting systems rely on sophisticated sensors for frost quantification. These sensors are susceptible to degraded performance with the passage of time under varying environmental conditions. To this end, we introduce a robust and generic image processing-based solution that relies on building a data-driven regression-based model for frost detection and thickness estimation. We evaluated the effectiveness of the proposed method on a newly collected dataset with encouraging performance in terms of a low error margin of 13.69% when compared to conventional capacitive and photoelectric sensors-based frost thickness estimation with error margins of 15.17% and 17.5%, respectively. Similarly, other image processing-based methods, such as Global thresholding, Adaptive mean, and Adaptive gaussian thresholding for segmentation, were compared with the proposed method. Deviations in the error margins were found to be 19.94%, 28.96%, and 27.85%, respectively. These findings highlight the appropriateness of employing K-means for estimating frost thickness. [ABSTRACT FROM AUTHOR]

Published

2024

40. Various Methods to Improve Energy Efficiency in Industrial Refrigerators.

Author

Şensoy, Buğra and Aktaş, Mustafa

Subjects

*REFRIGERATORS, *ENERGY consumption, *GLOBAL warming, *CLIMATE change, *CARBON emissions

Abstract

Effective and efficient energy consumption, environmental sensitivities, climate change, and global warming are significant issues that the world is currently focusing on. Industrial refrigerators are the devices that have significant effects under the mentioned headings. Environmental sensitivities should be valued when improving innovative designs for effective and efficient energy consumption in industrial refrigerators. Moreover, with both international and national regulations recently, designs to be made at this point have become an obligation rather than a necessity. This study aims to use energy effectively and efficiently, creating an energy efficiency factor in industrial refrigerators; various aspects, such as components, insulation, refrigerant, control technique, ambient conditions, cooling cycle, and airflow were studied from different perspectives and grouped, and the outputs obtained as a result of the studies were compiled. The grouped and compiled outputs were presented title-based and optimum solutions in terms of energy efficiency were discussed. The presented outputs will be used as effective design inputs in the studies carried out by researchers and product manufacturers, thus, as a result of innovative studies that create energy efficiency, designs with substantial environmental sensitivity, especially carbon emissions, will emerge. In addition, it thought that innovative and efficient designs would make direct and indirect contributions to the economy. [ABSTRACT FROM AUTHOR]

Published

2024

41. Characterization of Two Fast-Turnaround Dry Dilution Refrigerators for Scanning Probe Microscopy.

Author

Barber, Mark E., Li, Yifan, Gibson, Jared, Yu, Jiachen, Jiang, Zhanzhi, Hu, Yuwen, Ji, Zhurun, Nandi, Nabhanila, Hoke, Jesse C., Bishop-Van Horn, Logan, Arias, Gilbert R., Van Harlingen, Dale J., Moler, Kathryn A., Shen, Zhi-Xun, Kou, Angela, and Feldman, Benjamin E.

Subjects

*SCANNING probe microscopy, *QUANTUM information science, *REFRIGERATORS, *ELECTRON temperature, *MICROWAVE reflectometry, *KELVIN probe force microscopy, *RESEARCH personnel, *DILUTION, *MICROWAVE spectroscopy

Abstract

Low-temperature scanning probe microscopes (SPMs) are critical for the study of quantum materials and quantum information science. Due to the rising costs of helium, cryogen-free cryostats have become increasingly desirable. However, they typically suffer from comparatively worse vibrations than cryogen-based systems, necessitating the understanding and mitigation of vibrations for SPM applications. Here we demonstrate the construction of two cryogen-free dilution refrigerator SPMs with minimal modifications to the factory default and we systematically characterize their vibrational performance. We measure the absolute vibrations at the microscope stage with geophones and use both microwave impedance microscopy and a scanning single-electron transistor to independently measure tip-sample vibrations. Additionally, we implement customized filtering and thermal anchoring schemes and characterize the cooling power at the scanning stage and the tip electron temperature. This work serves as a reference to researchers interested in cryogen-free SPMs, as such characterization is not standardized in the literature or available from manufacturers. [ABSTRACT FROM AUTHOR]

Published

2024

42. Performance Evaluation of a Photovoltaic Module-Driven van der Waals Heterostructure-Based Thermionic Refrigerator.

Author

LU Zhen and HUANG Yuewu

Subjects

PHOTOVOLTAIC power systems, VAN der Waals forces, REFRIGERATORS, HETEROSTRUCTURES, THERMAL resistance

Abstract

Copyright of Journal of Donghua University (English Edition) is the property of Journal of Donghua University Editorial Board and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. Cooling of Superconducting Motors on Aircraft.

Author

Caughley, Alan, Lumsden, Grant, Weijers, Hubertus, Jeong, Sangkwon, and Badcock, Rodney A.

Subjects

COOLING loads (Mechanical engineering), SUPERCONDUCTING coils, ELECTRIC motors, LIQUID fuels, HYDROGEN as fuel, COOLING systems, MOTOR fuels, REFRIGERATORS, HEAT sinks

Abstract

Superconducting electric motors are required in order to deliver lower-carbon aviation. Critical to the success and viability of operating superconducting electric motors in aviation is keeping the superconducting coils at their operating temperature. This paper examines the challenges of keeping a superconducting motor cold if it were used on a single aisle passenger aircraft such as an Airbus A320. The cooling problem is defined and different cooling scenarios are investigated to determine viability. The investigation has shown that for a motor with a superconducting rotor only (copper stator), a Stirling-type cryocooler would be sufficient. However, if the motor is to be fully superconducting, then the cooling loads of the stator, which are much higher, make mechanical refrigeration impractical and the only option is to cool the motor with the heat sink of a liquid hydrogen fuel. [ABSTRACT FROM AUTHOR]

Published

2024

44. Optimisation of a packed particle magnetocaloric refrigerator: A combined experimental and theoretical study.

Author

Adapa, Sarath R., Feng, Tianshi, Ihnfeldt, Robin V., and Chen, Renkun

Subjects

*HEAT transfer fluids, *HELIUM, *BIOMASS liquefaction, *THERMAL diffusivity, *REFRIGERATORS

Abstract

• Room-temperature magnetocaloric refrigeration prototype with helium as the heat transfer fluid and packed particle Gd 0.8875 Ce 0.1025 Si 0.84 Cr 0.19 as the refrigerant. • Measurements on temperature spans and cooling power with three particle sizes at two different operating cycles. • Reduction of performance in large particles from insufficient thermal diffusion in faster cycle. • Validated numerical model and compared effects of viscous dissipation and thermal diffusion. • Implications of magnetocaloric refrigerant with low thermal diffusivity for cryogenic temperatures discussed. Magnetocaloric refrigeration has strong potential towards achieving high efficiency hydrogen liquefaction. Optimising parameters such as particle size and operating cycles can have a significant impact on liquefaction performance. This work reports on a room temperature magnetocaloric refrigeration prototype designed with helium as the heat transfer fluid and packed particle Gd 0.8875 Ce 0.1025 Si 0.84 Cr 0.19 as the refrigerant. The temperature spans and cooling power with three different particle sizes at two different operating cycles were measured. A maximum temperature span of 16.7 K and a maximum cooling power of 8.6 W kg−1 were obtained. Reduction of performance in the faster cycle was observed in larger particles due to insufficient thermal diffusion time and its implications for cryogenic temperatures are discussed. A numerical model was developed based on the experimentally observed variation of the temperature span and cooling power with particle size and cycle duration. This model was then used to study the competing effects of viscous dissipation and thermal diffusion for different particle sizes and cycle durations. [ABSTRACT FROM AUTHOR]

Published

2024

45. Improving cooling efficiency in domestic refrigerators: a passive cooling system exploiting external air circulation.

Author

Nicoletti, Francesco, Azzarito, Giacomo, and Sylaj, Dukagjin

Subjects

*COOLING systems, *AIR-cooled condensers, *REFRIGERATORS, *HEAT transfer, *ENERGY consumption

Abstract

• Innovative passive cooling system to reduce refrigerator energy consumptions. • Use of external air for condenser cooling enables a lower temperature heat source. • The heat from the condenser drives natural airflow circulation of the external air. • CFD analysis optimize device geometry and heat transfer. • Experimental test demonstrates significant energy savings of 36.0 % ± 5.2 %. The paper presents a solution aimed at enhancing the cooling efficiency of domestic refrigerators. The proposed approach involves a passive cooling system designed to leverage the colder external air during winter for the cooling of the fridge condenser. Indeed, the use of a colder external source helps to increase the efficiency of the refrigerator. The system provides a connection between the rear section of the refrigerator and the external environment via two ducts. The heat dissipated by the condenser induces the natural circulation of outdoor cooling air. The study includes experimental and CFD analysis. The experimental results shows that the configuration with the cooling system achieves higher useful effects and lower power consumption compared to the traditional setup, yielding a reduction in energy consumption of 36.0 % ± 5.2 % when operating with an external air temperature of 0 °C. The CFD model is validated through experimental data, and simulations are conducted to optimize the sizing and design of the system components. Parametric analysis indicates that duct diameters of 12 cm and a box depth of 15 cm behind the fridge are required to optimize heat transfer and aid natural circulation. In summary, the paper offers a suitable solution to increase the fridge efficiency in cold climatic locations. [ABSTRACT FROM AUTHOR]

Published

2024

46. INSUFFICIENCY OF EXTERNAL DEMAND AND CRISIS IN THE MATO-GROSSENSE REFRIGERATING MARKET/INSUFICIENCIA DE DEMANDA EXTERNA E CRISE NO MERCADO FRIGORIFICO MATO-GROSSENSE/INSUFICIENCIA DE LA DEMANDA EXTERNA Y CRISIS EN EL MERCADO DE REFRIGERADORES MATO-GROSSENSE

Author

de Moraes, Fabricio Cesar, de Siqueira, Rosicley Nicolao, Warley, Esdras, and Vieira, Anderson Nunes de Carvalho

Published

2024

47. Calculations of drying food using rejected heat from the home refrigerator.

Author

Mahdy, Abbas T., Naji, Zainab H., and Ibrahim, Sahira H.

Subjects

*FOOD dehydration, *WASTE heat, *PROCESS capability, *REFRIGERATORS, *BANANAS, *TEMPERATURE distribution

Abstract

In this paper, a food drying unit is designed using the waste heat from the condenser of a domestic refrigerator that runs on environmentally friendly R134a refrigerant. Approximate calculations will be used to determine the appropriate design of the drying process. The dryer was manufactured from the same materials as the domestic refrigerator in the form of a box with dimensions (50 * 40 * 45) width,height and depth respectivelyw. Banana fruit was used to estimate the heat load and select the appropriate compressor capacity for the drying process. Two forms of condensers were designed inside the drying chamber, the first condenser in the shape of (L-type) and the second condenser in the shape of (shelf type). The results showed that the rack condenser is the best in terms of temperature distribution inside the drying compartment. [ABSTRACT FROM AUTHOR]

Published

2023

48. First refrigerator container rake flagged off by Waltair railway division

Subjects

Ports, Railroads -- International economic relations, Refrigerators, Transportation industry

Abstract

Byline: Maritime Gateway The Waltair Railway division of the East Coast Railway Zone flagged off its first refrigerator container rake, laden with 43 containers with a load of 1,080 tonnes [...]

Published

2024

49. Meet the 'Fridgescapers' â The People Decorating Inside Their Refrigerators With Elaborate Decor

Subjects

Kitchens, Refrigerators, Home and garden

Abstract

Have you heard of 'fridgescaping' yet? This viral trend is all about beautifying the contents of your fridge by decorating its shelves and storing your food more creatively. Coming across [...]

Published

2024

50. The refrigerator revolution

Subjects

Refrigerators

Abstract

INSIGHT The refrigerator revolution The refrigerator is a part of every modern kitchen. It keeps our food fresh and our vegetables crisp, and some even dispense filtered water or ice. [...]

Published

2024