Your search keyword '"calorimeter"' showing total 10,412 results

1. Thermochemistry of the Dissolution of Copper Tetra-3-carboxyphtalocyanine in Aqueous Solutions of KOH at 298.15 K.

Author

Krutov, P. D., Maizlish, V. E., Krutova, O. N., Chernikov, V. V., Bazanov, M. I., and Kiptikova, E. E.

Abstract

A complex of tetra-3-carboxyphthalocyanine with copper that is insoluble in water is obtained. Thermal effects from dissolving crystalline tetra-3-carboxymetalphthalocyanine in aqueous solutions of various KOH concentrations (from 0.002 to 0.02 mol/L) at 298.15 K are determined via direct calorimetry. Measurements are made in a calorimeter using an isothermal shell with automatic recording of the temperature and electrical calibration at T = (293.15–308.15) ± 0.01 K and P = 100.5 ± 0.7 kPa. Standard enthalpies of formation of the products of dissociation of the tetra-3-carboxyphthalocyanine complex with copper in aqueous solution are calculated. Thermal effects of stepwise dissociation are calculated using the HEAT computer program. [ABSTRACT FROM AUTHOR]

Published

2024

2. Estimation of the Accuracy of Determining the Number of Spectator Nucleons from the Energy Measured in a Calorimeter in A + A Collisions.

Author

Valiev, F. F., Vechernin, V. V., and Feofilov, G. A.

Abstract

A method based on Bayes' formula was used to estimate the relative error in determining the number of spectator nucleons from the energy measured in a calorimeter during the collision of relativistic nuclei. The minimum possible relative error in determining the number of spectator nucleons in an event is obtained for an arbitrary distribution of spectators. [ABSTRACT FROM AUTHOR]

Published

2024

3. Kinetics for the sulfuric acid‐catalyzed reactions of ethylene oxide with water and ethylene glycols.

Author

Levin, Marc E., Mitschke, Justin, Smith, Sheehan, Chipman, Peter I., Singh, S. K., Lenahan, Robert, Frederick, Timothy S., and Gulledge, Bill

Subjects

ETHYLENE glycols, ETHYLENE oxide, INDUSTRIAL safety, AUTOMATIC tracking, SULFURIC acid, TIME pressure, ETHYLENE glycol

Abstract

Adiabatic calorimeter experiments have quantified the sulfuric acid‐catalyzed reaction of ethylene oxide (EO) with water to form ethylene glycol (EG) and higher glycols. Conditions were selected relevant to industrial safety, such as a scenario of reverse flow of acid from a scrubber to an EO tank. Concentrations of 25–95 wt% EO with acidified water of pH 3.0 down to pH –0.7 were examined. In some experiments, EG was also added to the mix. The best fit apparent reaction rate expression exhibits a 1.5 order in EO concentration, third order in water concentration, nearly first order in acid concentration, and an activation energy of 76,500 kJ/kmol. The reaction model provides an adequate fit of adiabatic self‐heat rate versus temperature, pressure rate versus temperature, pressure versus time, and temperature versus time data for a large number of APTAC (Automatic Pressure Tracking Adiabatic Calorimeter) experiments. The model builds on one previously developed for the neutral reactions of EO with water and EGs. A case study involving a sulfuric acid‐contaminated EO railcar is presented. The reaction model can help quantify the behavior of EO contaminated with sulfuric acid solution below about 120°C. Above this temperature, other reaction pathways not characterized in this study become more prominent. [ABSTRACT FROM AUTHOR]

Published

2024

4. Calorimetric Comparison of Power Inductors for Automotive Applications

Author

Santoro, Danilo, Spaggiari, Davide, Daniele, Simone, Cova, Paolo, Delmonte, Nicola, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Tan, Kay Chen, Series Editor, Ciofi, Carmine, editor, and Limiti, Ernesto, editor

Published

2024

5. Thermodynamic Assessment of Tin Based Molten Binary Indium-Tin Solder Alloys

Author

Kumar, M. R., Patra, Sudipta, editor, Sinha, Subhasis, editor, Mahobia, G. S., editor, and Kamble, Deepak, editor

Published

2024

6. Principle verification of the calibration light source subsystem for the calorimeter in herd experiment

Author

Chen, Qianjun, Liu, Xin, Wang, Zhigang, Zhang, Zheyuan, Zhang, Li, Lu, Yunpeng, Nie, Guozheng, Zhu, Kejun, and Dong, Yongwei

Published

2024

7. An approach to study interactions of antineutrons with CsI at a J/ψ factory

Author

Yuan, Sicheng, Wang, Liangliang, and Li, Weidong

Published

2024

8. Thermodynamic analysis and heat transfer optimization of the CRAFT NNBI calorimeter.

Author

Tang, Ning, Hu, Chun-Dong, and Xie, Yuan-Lai

Abstract

In the process of neutral beam injection (NBI), the high-energy neutral beams, which are up to 31 MW/m2 and last for 3600 s in some cases, impinge on the calorimeter, which is a high-heat-flux component. Therefore, it is necessary to study the heat transfer performance of the calorimeter to ensure the testing and commissioning of NBI systems. First, the uniformity of the water mass flow distribution in each branch pipe of the calorimeter under five different flow configurations was studied. The results show that when two adjacent branches form a group of circuits, the uniformity of the mass flow distribution and the heat transfer capacity are better. Second, the influence of bending the middle of the pipe into several different buffer support structures on the deformation of the branch pipe was studied. Third, the heat transfer performance was compared between the optimized structure and the original circular pipe. Under the same water mass flow conditions, the maximum deformation of the optimized structure is reduced to 2.79 mm, and the maximum temperature is reduced by 30.31%, indicating effective improvement in the heat transfer performance and a reduction in deformation. Therefore, the optimized calorimeter can adapt to the future operational environment under a higher heat flux and long pulse. Finally, several groups of branch pipes were assessed to verify the feasibility of the design. This research can also provide theoretical and engineering support for the future design of calorimeters and other components under long-pulse and high-heat-flux operation. [ABSTRACT FROM AUTHOR]

Published

2024

9. Cryogenic Calorimetric Signal Readout with 180nm CMOS at 20 mK

Author

Huang, Roger G, Gnani, Dario, Grace, Carl, Kolomensky, Yury G, Mei, Yuan, and Papadopoulou, Aikaterini

Subjects

Quantum Physics, Physical Sciences, Cryogenic, CMOS, NTD, Interface, Calorimeter

Abstract

We present a demonstration of readout of physical cryogenic calorimetric signals from 20 mK with a two-stage amplifier using 180 nm CMOS technology placed at 20 mK and 700 mK. We observe a number of cryogenic effects in 180 nm CMOS that deviate from typical warm behavior, which are not prohibitive to their cryogenic operation but whose potential impacts we discuss. This represents a new step towards the viability of cryogenic electronics using 180 nm CMOS in cryogenic calorimetric experiments.

Published

2022

10. An evaluation method for nuclear radiation detection performance of glass scintillator

Author

Hua, Zhehao, Qian, Sen, Cai, Hua, Du, Dejing, Fan, Ruirui, Han, Jifeng, Hu, Chen, Hu, Peng, Liu, Shan, Liu, Yong, Ma, Lishuang, Qin, Laishun, Ren, Jing, Song, Ruiqiang, Sui, Zexuan, Sun, Xilei, Sun, Xinyuan, Tang, Gao, Wang, Zhigang, Wu, Qi, Yang, Dong, Zheng, Lirong, and Zhu, Yao

Published

2024

11. Rare event searches with cryogenic detectors.

Author

Mokina, Valentyna and Schieck, Jochen

Subjects

*PARTICLE detectors, *DETECTORS, *DARK matter, *ELASTIC scattering, *ELECTROMAGNETIC wave scattering, *CRYOGENICS, *NEUTRINOLESS double beta decay, *WEAKLY interacting massive particles

Abstract

Cryogenic detectors can detect the smallest energy depositions via the scattering of the incoming particle with the detector material. The deposited energy leads to minimal temperature rises of a few μK , read out via transition edge sensors and SQUIDs. Using scintillating crystals as detector material offers the possibility of discriminating between nuclear recoils from dark matter scattering and electromagnetic background events. The CRESST experiment pioneered this technology and is still among the most sensitive experiments searching for sub-GeV dark matter particles. The technology is now also used by other experiments for dark matter searches (COSINUS) and for measuring coherent elastic neutrino-nucleus scattering (NUCLEUS). We discuss cryogenic detectors' detection principle and their application. We present the latest dark matter results from CRESST, a new type of background, and the status of the COSINUS and NUCLEUS experiments. This article is part of the theme issue 'The particle-gravity frontier'. [ABSTRACT FROM AUTHOR]

Published

2024

12. GET 133-2023 State Primary Special Standard for the unit of heat in the field of solution and reaction calorimetry.

Author

Mishina, K. A., Korchagina, E. N., and Kazartsev, I. V.

Subjects

*PRIMARIES, *ISOTHERMAL titration calorimetry, *CALORIMETRY, *HEAT transfer

Abstract

The article shows the need to develop methods and means of reproducing and transferring the unit of heat in the field of measuring the low heat of physicochemical interactions via isothermal titration calorimetry. The relevance of this work is attributable to the wide application of isothermal titration calorimeters implementing this method and the lack of standard metrological procedures and tools designed for metrological support. In order to ensure the uniformity and traceability of measurement in this field, the Calorimetry Laboratory of VNIIM conducted studies to expand the functional and measurement capabilities of GET 133-2012 State Primary Special Standard for the unit of heat in the field of solution and reaction calorimetry. In the course of work, a standard titration microcalorimeter was developed, studied, and included in the improved GET 133-2012; the titration microcalorimeter is designed to reproduce, maintain, and transfer the unit of heat in the field of measuring low heat in liquid media. The studies of the titration microcalorimeter confirmed the possibility of reproducing and transferring the unit of heat within the range of 100–5000 µJ with an expanded uncertainty of 1.2–8.6%. The improved GET 133-2012 having revised composition and new metrological characteristics was approved as GET 133-2023 State Primary Special Standard for the unit of heat in the field of solution and reaction calorimetry. The expansion of the standards base for isothermal titration calorimetry provided the basis for creating new metrological means of transferring the unit of heat in the field of solution and reaction calorimetry. [ABSTRACT FROM AUTHOR]

Published

2023

13. 量热法测定 238Pu 样品热功率的不确定度评定.

Author

李多宏, 潘玉婷, 于雪, 李鑫, 朱秋平, 赵国海, 刘崎, 韩叶良, and 刘立坤

Abstract

Copyright of World Nuclear Geoscience is the property of World Nuclear Geoscience Editorial Office 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

2023

14. The PMT Acquisition and Trigger Generation System of the HEPD-02 Calorimeter for the CSES-02 Satellite.

Author

Mese, Marco, Anastasio, Antonio, Boiano, Alfonso, Masone, Vincenzo, Osteria, Giuseppe, Perfetto, Francesco, Panico, Beatrice, Scotti, Valentina, and Vanzanella, Antonio

Subjects

CALORIMETERS, PARTICLE detectors, COSMIC rays, SOLAR activity, GAMMA ray bursts, GAMMA ray astronomy

Abstract

This contribution describes the acquisition and trigger system for the HEPD-02 calorimeter that will be used onboard the CSES-02 satellite for the CSES/Limadou mission. This mission arises from the collaboration between the Chinese Space Agency (CNSA) and the Italian Space Agency (ASI) and plans the realization of a constellation of satellites which will monitor ionospheric parameters supposed to be related to earthquakes. It will also monitor the solar activity and the interaction with the magnetosphere and will study the cosmic rays in low energy ranges, extending data from PAMELA and AMS. The CSES-02 satellite will be equipped with various instruments, including the High-Energy Particle Detector (HEPD-02), which was designed to measure the energy of particles coming from Van Allen belts. Signals from the HEPD-02 are acquired and digitized by an electronic board that also produces the trigger for the experiment. A new generation ASIC (CITIROC) for the amplification, shaping and memorization of signals from PMTs will be used on this board. The new ASIC allows the use of the peak detector feature, optimizing the acquisition of signals with different temporal characteristics. Along with this, new algorithms for trigger generation have been developed, providing trigger pre-scaling, concurrent trigger masks and Gamma Ray Burst detection. Using pre-scaled concurrent triggers will allow the study of very sensitive regions of a satellite's orbit such as the South Atlantic Anomaly and polar regions and to detect rare events such as GRBs while still monitoring particle bursts. In this contribution, the progress status of this work will be presented along with the measurements and tests made to finalize the flight model of the board. [ABSTRACT FROM AUTHOR]

Published

2023

15. Classification of calorimeters

Author

Stefan Perisanu, Ana Neacsu, and Daniela Gheorghe

Subjects

Calorimeter, Estimation method, Chemical energetics, Heat, Isotherm, Adiabatic, Thermodynamics, QC310.15-319

Abstract

The importance of calorimetric data in elaboration of estimation methods of thermodynamic parameters is outlined. Four criteria for calorimeter classification are considered: (i) the parameter controlled by the instrument during the measurement, (ii) the way of taking over the heat accompanying the process, (iii) the method used in order the evaluate the value of the thermal effect and (iv) the procedure by which some reactants get in contact with the measuring part of the instrument. The progresses in the accuracy of the measurements and the extension of the applications of calorimetry during time have been evidenced.

Published

2024

16. Flux and Nuclear Heating Rate Calculations for CALORRE Irradiation in MITR.

Author

Hauptman, S., Volte, A., Kohse, G., Carette, M., Lyoussi, A., and Reynard-Carette, C.

Subjects

*CALORIMETRY, *NEUTRONS, *PHYSICS, *COMPARATIVE studies, *IRRADIATION

Abstract

This work summarizes neutronic calculations performed for the CALORRE differential calorimeter specifically designed by Aix Marseille University to inform the irradiation campaign planning for testing in MITR within the framework of the CALOR-I research program. MCNP software was used to predict the neutron and gamma flux spectrum, and total nuclear heating rate to the components of the calorimeter in a variety of positions. Results were compared to evaluate spatial bias, core loading effects, optimization for axial position, and provide input data for thermal multi-physics modelling. [ABSTRACT FROM AUTHOR]

Published

2023

17. Characterization of a new reduced-height CALORRE differential calorimeter for CALOR-I Irradiation in MITR.

Author

Volte, A., Hauptman, S., Carpenter, D., Carette, M., Lyoussi, A., Kohse, G., and Reynard-Carette, C.

Subjects

*CALORIMETRY, *IRRADIATION, *METROLOGY, *LABORATORIES, *MEASUREMENT

Abstract

This paper presents the preliminary characterization of a new reduced-height CALORRE differential calorimeter designed and fabricated for the irradiation in the MITR within the framework of the CALOR-I program. The paper begins by focusing on the preparation of the irradiation campaign, providing a brief and concise description of the MITR core and the newly fabricated differential calorimeter assembly. Next, the paper presents the preliminary experimental characterization conducted under laboratory conditions. This section includes a detailed presentation of the updated experimental set-up and the key metrological characteristics of the sensor response obtained from the first experimental results. Furthermore, the paper estimates and highlights the responses of the calorimeter calculated by means of a 3-D numerical thermal model under real conditions considering local heat sources determined by the NRL of the MIT using MCNP code. In conclusion, the paper offers some final remarks and prospects to realize the irradiation campaign successfully. [ABSTRACT FROM AUTHOR]

Published

2023

18. Research progress of in-pile calorimeter for measuring nuclear heating rate

Author

ZHANG Junxin, ZHANG Liang, QU Guofeng, MA Tianchi, REN Feixu, PENG Xingjie, HAN Jifeng, and ZHAO Guang

Subjects

calorimetric, nuclear heating rate, calorimeter, nuclear reactor, calibration method, Nuclear engineering. Atomic power, TK9001-9401

Abstract

The nuclear heating rate is a critical parameter for reactor core design and irradiation tests, it is typically determined via experimental measurements in a reactor experimental channel. In-pile calibration of calorimeter is an important method for measuring the nuclear heating rate in a fission reactor. This paper summarizes the working principle of the common in-pile calorimeter and reviews the current situation and research progress with regard to in-pile calorimetry employed worldwide. The structural design and performance characteristics of single-cell and multi-cell (differential) calorimeters are compared, and the design method of multimodal integrated measurement device, which represents one of development directions of calorimeters, is introduced. Moreover, the in- and out-pile calibration principles and application methods are described. The advantages and disadvantages of the calibration methods are analyzed, and the developing trend and direction for next-generation in-pile calorimeters are prospected.

Published

2024

19. A Simple Digital Calorimeter as Practicum Innovation Based on W1209 Thermostat Module

Author

Ratnasari, Rika, Doyan, Aris, Susilawati, Al Faris, Muhammad, Qadafi, Moammar, Nurkhaeroni, Ulfah, Devi, Via Monica, Istiqomah, Ferniawan, Qahfi, Bung Ashabul, Rahmayanti, Baiq Fitri, Lee, Chuan-Pei, Series Editor, Weimin, Huang, Series Editor, Doyan, Aris, editor, Hadisaputra, Saprizal, editor, Kechik, Mohd Mustafa Awang, editor, Bilad, Muhammad Roil, editor, Wei, Ching-Ming, editor, and Susilawati, editor

Published

2023

20. Energiegebruik

Author

Kenney, Larry W., Wilmore, Jack H., Costill, David L., Lindauer, Ramón, Kenney, Larry W., Wilmore, Jack H., Costill, David L., and Lindauer, Ramón

Published

2023

21. Computational Fluid Dynamic Analysis of Exhaust Gas Calorimeter

Author

Chidambaranathan, Bibin, Kumar, S. Senthil, Gopinath, S., Madhu, S., Sheeja, Raghavan, Edwin Geo, V., editor, and Aloui, Fethi, editor

Published

2023

22. Autoencoder-Based Anomaly Detection System for Online Data Quality Monitoring of the CMS Electromagnetic Calorimeter

Published

2024

23. Standard Enthalpies of Formation of Glycyl-L-tyrosine and Its Dissociation Products in Aqueous Solutions.

Author

Krutova, O. N., Bazanov, M. I., Chernikov, V. V., and Krutov, P. D.

Abstract

The enthalpies of dissolution of crystalline glycyl-L-tyrosine in water and in aqueous potassium hydroxide at 298.15 К were determined by the direct calorimetric method. The measurements were performed on a calorimetric unit with automatic recording of the temperature–time curve. The standard enthalpies of combustion and formation of glycyl-L-tyrosine were calculated by the additive group method based on group systematics with classification of fragments of the type of Benson classification, with the effect of the initial environment for atoms included in calculation. The standard enthalpies of formation of dipeptide and the products of its dissociation in aqueous solution were calculated. [ABSTRACT FROM AUTHOR]

Published

2023

24. Fiber laser cutting study on ternary NiTiV shape memory alloy.

Author

Arun, A., Rajkumar, K., and Santosh, S.

Subjects

LASER machining, SHAPE memory alloys, LASER beam cutting, GAS flow, SURFACE morphology, SURFACE roughness, NICKEL-titanium alloys

Abstract

Shape memory alloys (SMA) made of nickel–titanium (NiTi) have grown in popularity because of their functionality and mechanical qualities. Vanadium (V) was added as an alloying element to the regular binary NiTi shape memory alloy for enhancement of its ability to retain memory at high temperatures. In this research, the machined surface roughness (Ra) and material removal rate (MRR) of fiber-laser cutting of Ni50Ti48V2 SMA were investigated using Box-Behnken design (BBD) experimentation. The surface characteristics in terms of Ra decreased by 57.79% while cutting speed and laser power decreased and the frequency level gradually increased. The microhardness was high due to the resolidified molten layer on the machined surface. A surface morphology study indicated the formation of debris and striations due to the flow of nitrogen gas. DSC analysis reveals a minimal variation in the shape memory property even after laser machining. [ABSTRACT FROM AUTHOR]

Published

2023

25. Теплообмін щільного шару сипучого матеріалу з зануреними поверхнями.

Author

Климчук, О. А., Климчук, Н. В., Бабаєв, Є. С., Вудвуд, О. М., and Кравченко, Є. О.

Subjects

HEAT transfer coefficient, CALORIMETERS

Abstract

The paper presents the results of experimental studies conducted with the aim of determining the characteristics of the heat exchange of a dense layer of bulk material with surfaces and obtaining empirical dependences for average and local heat transfer coefficients during transverse flow through a dense layer of a submerged cylinder. Empirical dependences are valid in a wide range of changes in geometric and regime parameters within a satisfactory experimental error. The need for research in this area is due to the fact that most of the known literature data on heat exchange between dispersed material and the surface describes heat exchange with flows at a low concentration of dispersed material (dusty flows, gas suspension, fluidized beds). The heat exchange of a dense layer with a surface is devoted to a rather limited number of works carried out in the seventies and eighties, but even in these works there are contradictions not only of a quantitative, but also of a qualitative nature. In the presented work, the research was carried out on an experimental installation, made in the form of a rectangular vertical mine, in which, under the action of gravity, bulk material enters in the form of a dense layer. Determination of heat transfer coefficients was performed using the methods of stationary and regular thermal regimes. As a result of the generalization of experimental data, criterial dependences were obtained, which allow thermal calculation of tubular heat exchangers for heating (cooling) bulk materials moving in the form of a dense layer. The resulting dependencies are important for the chemical industry, at non-ferrous metallurgy enterprises, during heat treatment of materials and in other industries where there is a need to heat (cool) bulk materials in the relevant technological processes or for the purpose of heat utilization. [ABSTRACT FROM AUTHOR]

Published

2023

26. The Use of Coffee Waste in the Reduction of Metallurgical Slags

Author

T. Matuła, Ł. Kortyka, Ł. Myćka, J. Łabaj, and T. Wojtal

Subjects

solid coffee grounds, reduction, copper slag, calorimeter, Technology (General), T1-995

Abstract

Coffee is grown in over 50 countries around the world, and its sale is the largest in the world trade after crude oil. In the case of coffee beans, after consumption remains a solid waste in the form of a waste plant extract. At present, coffee waste is not fully managed, which means that it is often deposited in landfills. Taking into account their availability on the market and the content of significant amounts of carbon in them, it was proposed to use them as a reducing agent in the processing of copper slags. The use of Solid Coffee Grounds (SCG) as an alternative reducing agent for coke and coke breeze can be beneficial in two aspects. The first is the reduction of carbon dioxide emissions in the process, and the second is due to the possible release of hydrocarbons from these wastes at high temperatures, which, apart from participating in the reduction process itself, causes also mixing of the bath in the melting unit, which facilitates the process of copper sedimentation in the slag. The experiments carried out on a laboratory scale showed the possibility of reducing the copper content in the slag after the reduction process from 10.3 to 0.41 % by mass. The obtained values of the relative degree of copper splashing for all experiments ranged from 88.4 to 96.0 %. The presented solution is an innovative approach to the use of SCG in the processing of copper slags.

Published

2023

27. Thermochemistry of the Dissolution of Tetra-4-(4'-carboxyphenyoxy)- and Tetra-4-(4'-carboxyphenylthio)phthalocyanines of Copper in Aqueous Solutions of KOH at 298.15 K.

Author

Krutova, O. N., Maizlish, V. E., Chernikov, V. V., Tikhomirova, T. V., and Krutov, P. D.

Abstract

The authors obtain complexes CuPc(4-S-C6H4-COOH)4 and CuPc(4-O-C6H4-COOH)4 that are insoluble in water. The standard enthalpies of formation of these compounds are calculated using additive groups based on group systematics with Benson-type classification of fragments, allowing for the influence of the atoms' primary environment. Thermal effects of the dissolution of crystalline phthalocyanines in aqueous solutions of various KOH concentrations at a temperature of 298.15 K were determined via direct calorimetry. Thermal effects of the stepwise dissociation of CuPc(4-S-C6H4-COOH)4, CuPc(4-O-C6H4-COOH)4 are calculated using the HEAT computer program. Standard enthalpies of formation are calculated for products of the dissociation of CuPc(4-S-C6H4-COOH)4 and CuPc(4-O-C6H4-COOH)4 in an aqueous solution. [ABSTRACT FROM AUTHOR]

Published

2023

28. The ATLAS Detector

Author

Horyn, Lesya and Horyn, Lesya

Published

2022

29. 全自动辐射热传导测试仪的研发.

Author

徐远志, 白振华, 韩 祥, 穆 岩, and 陈 波

Subjects

HEAT radiation & absorption, HEAT conduction, RADIATION sources, SYSTEM safety, STEPPING motors, COMPUTER software testing

Abstract

Copyright of Cotton Textile Technology is the property of Cotton Textile Technology Editorial Office 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

2023

30. The PMT Acquisition and Trigger Generation System of the HEPD-02 Calorimeter for the CSES-02 Satellite

Author

Marco Mese, Antonio Anastasio, Alfonso Boiano, Vincenzo Masone, Giuseppe Osteria, Francesco Perfetto, Beatrice Panico, Valentina Scotti, and Antonio Vanzanella

Subjects

trigger, pmt, cses, limadou, calorimeter, earthquake, Physics, QC1-999, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

This contribution describes the acquisition and trigger system for the HEPD-02 calorimeter that will be used onboard the CSES-02 satellite for the CSES/Limadou mission. This mission arises from the collaboration between the Chinese Space Agency (CNSA) and the Italian Space Agency (ASI) and plans the realization of a constellation of satellites which will monitor ionospheric parameters supposed to be related to earthquakes. It will also monitor the solar activity and the interaction with the magnetosphere and will study the cosmic rays in low energy ranges, extending data from PAMELA and AMS. The CSES-02 satellite will be equipped with various instruments, including the High-Energy Particle Detector (HEPD-02), which was designed to measure the energy of particles coming from Van Allen belts. Signals from the HEPD-02 are acquired and digitized by an electronic board that also produces the trigger for the experiment. A new generation ASIC (CITIROC) for the amplification, shaping and memorization of signals from PMTs will be used on this board. The new ASIC allows the use of the peak detector feature, optimizing the acquisition of signals with different temporal characteristics. Along with this, new algorithms for trigger generation have been developed, providing trigger pre-scaling, concurrent trigger masks and Gamma Ray Burst detection. Using pre-scaled concurrent triggers will allow the study of very sensitive regions of a satellite’s orbit such as the South Atlantic Anomaly and polar regions and to detect rare events such as GRBs while still monitoring particle bursts. In this contribution, the progress status of this work will be presented along with the measurements and tests made to finalize the flight model of the board.

Published

2023

31. Interconnected training in laboratory and practical classes in solid state physics

Author

Khushvaktov, Ural Norkobilovich

Published

2022

32. Oxidative stability of blended sunflower and castor biodiesel by Rancimat and static mode P-DSC.

Author

Chellappa, Thiago, Santa Rosa, José G.D.S., Santos, Dino L. F., Boufleur, Rodrigo N., Paiva, Isadora V.D.L., Lèger, Tom, Chellappa, Naithirithi T., and Nascimento, Rubens M.

Subjects

*FATTY acid esters, *SUNFLOWERS, *UNSATURATED compounds, *SUNFLOWER seeds

Abstract

Biodiesel is composed of saturated and unsaturated long chain fatty acid alkyl esters. Due to these unsaturated compounds, there is a susceptibility to the autoxidation process. Castor biodiesel has excellent thermal and oxidative stabilities due to its chemical composition. Blends of sunflower and castor were obtained in the ratios 20, 40, 60 and 80% m/m with the intention to study the effect of the addition of castor biodiesel on the induction period of sunflower biodiesel of low oxidative stability, employing the Rancimat method (EN 14112) and P-DSC isothermal mode. The above mentioned blend containing 40% of castor biodiesel in sunflower biodiesel meets the specification of oxidative stability (6 hours). Furthermore, it was observed that the addition of castor biodiesel is interesting, since it improves the resistance to the oxidation of sunflower. The results obtained by Rancimat and P-DSC were consistent with respect to the analysis of biodiesel blends, indicating that the use of P-DSC technique to study the oxidative stability is quite promising. [ABSTRACT FROM AUTHOR]

Published

2023

33. Do energy expenditure differences across work postures influence cognitive processing speed? A counter-balanced randomised cross-over trial.

Author

Rajeshwari, R., Rao, Chythra R, D'Silva, Ruth Mary, and Chandrasekaran, Baskaran

Subjects

ENERGY metabolism, WORK environment, ANALYSIS of variance, STANDING position, COGNITION, RANDOMIZED controlled trials, COMPARATIVE studies, PEARSON correlation (Statistics), SITTING position, POSTURE, WALKING, DESCRIPTIVE statistics, REPEATED measures design, JOB performance, STATISTICAL sampling, CROSSOVER trials, DATA analysis software, CALORIMETRY

Abstract

BACKGROUND: Anecdotal evidence links occupational sedentary behaviour, low energy expenditure (EE) and cognitive dysfunction. Nevertheless, EE across different work postures including active workstations remains unclear and its influence on cognitive processing speed is yet to be established. OBJECTIVE: We aimed to investigate differences in EE across various work postures and its influence on cognitive processing speed. METHODS: Sixteen desk-based employees performed simulated work tasks (typing, reading and cognitive tasks) in three different work positions (sitting, standing, and walking) in three different days. EE was measured for three days consecutively for 30-minutes in three simulated working postures using indirect calorimetry. Cognitive processing speed was assessed through computer-based choice reaction times during each work posture. The outcome variables of interest (EE, reaction times and accuracy) were compared between three work postures using repeated measures ANOVA and Pearson correlation. RESULTS: EE in walking posture was higher (5.57±0.45 Kcal) than sitting (1.07±0.12 Kcal) and standing (1.88±0.42 Kcal). Total EE was significantly higher in walking than standing (35.17±6.86 Kcal) and sitting postures (41.37±8.46 Kcal). We did not find any significant differences in cognitive processing speed between different work postures except within standing work condition (60.22±13.97 ms). Accuracy was found to be reduced in walking compared to sitting (0.76±0.83%) and standing (0.43±0.09%) but not reached significance. CONCLUSION: Although significant differences in EE were observed between work postures, walking or standing at work did not affect the cognitive processing speed. [ABSTRACT FROM AUTHOR]

Published

2023

34. Thermochemistry of the Dissolution of Tetra-4-carboxymetallophthalocyanines in Aqueous Solutions of KOH at 298.15 K.

Author

Krutova, O. N., Maizlish, V. E., Lytkin, A. I., Chernikov, V. V., Volkov, A. V., Fedotova, A. E., and Krutov, P. D.

Abstract

Complexes are obtained of tetra-4-carboxyphthalocyanines with copper and zinc that are insoluble in water. Standard enthalpies of formation of the compounds are calculated according to additive groups based on group systematics with a Benson-type classification of fragments that considers the influence of the primary environment of atoms. Thermal effects of the dissolution of crystalline tetra-4-carboxymetallo-phthalocyanines in aqueous solutions at different concentrations of KOH (0.002 to 0.02 mol/L) at 298.15 K are determined via direct calorimetry. The standard enthalpies of formation are calculated for products of the dissociation of complexes of tetra-4-carboxyphthalocyanines with copper and zinc in aqueous solutions. [ABSTRACT FROM AUTHOR]

Published

2023

35. The Use of Coffee Waste in the Reduction of Metallurgical Slags.

Author

Matuła, T., Kortyka, Ł., Myćka, Ł., Łabaj, J., and Wojtal, T.

Subjects

COFFEE waste, METAL wastes, CARBON dioxide mitigation, COPPER slag, COFFEE grounds, SLAG, WASTE minimization

Abstract

Coffee is grown in over 50 countries around the world, and its sale is the largest in the world trade after crude oil. In the case of coffee beans, after consumption remains a solid waste in the form of a waste plant extract. At present, coffee waste is not fully managed, which means that it is often deposited in landfills. Taking into account their availability on the market and the content of significant amounts of carbon in them, it was proposed to use them as a reducing agent in the processing of copper slags. The use of Solid Coffee Grounds (SCG) as an alternative reducing agent for coke and coke breeze can be beneficial in two aspects. The first is the reduction of carbon dioxide emissions in the process, and the second is due to the possible release of hydrocarbons from these wastes at high temperatures, which, apart from participating in the reduction process itself, causes also mixing of the bath in the melting unit, which facilitates the process of copper sedimentation in the slag. The experiments carried out on a laboratory scale showed the possibility of reducing the copper content in the slag after the reduction process from 10.3 to 0.41 % by mass. The obtained values of the relative degree of copper splashing for all experiments ranged from 88.4 to 96.0 %. The presented solution is an innovative approach to the use of SCG in the processing of copper slags. [ABSTRACT FROM AUTHOR]

Published

2023

36. Receiver Calorimeter of Fast Atom Beam Injector in Megawatt Range.

Author

Amirov, V. Kh., Akhmetov, T. D., Gorbovskiy, A. I., Deychuli, P. P., Ivanov, A. A., Kapitonov, V. A., and Shikhovtsev, I. V.

Subjects

*ATOMIC beams, *PLASMA beam injection heating, *INJECTORS, *CALORIMETERS, *HEAT transfer, *ENERGY consumption

Abstract

The receiver calorimeter (RC) is one of the main elements of the beam path of an atomic beam injector with ballistic focusing. A water-cooled RC developed for an injector of a focused beam of fast deuterium atoms with a beam power of more than 1 MW and pulse duration of 2 s [1] installed at the variable configuration tokamak (TCV) in Lausanne (Switzerland) is considered. The design of the RC includes receiving plates with liquid flow swirlers installed in them to enhance heat transfer and pipe-in-pipe collectors of water inlet and water outlet that provide the movement into a vacuum. These technical solutions made it possible to achieve good energy efficiency of the device with very small overall dimensions and mass flow of the coolant. The design of the main elements of the calorimeter is described. The results of simulation of the coolant flow and heat transfer and some experimental data are presented. [ABSTRACT FROM AUTHOR]

Published

2022

37. Mu2e Crystal Calorimeter Readout Electronics: Design and Characterisation.

Author

Atanov, Nikolay, Baranov, Vladimir, Borrel, Leo, Bloise, Caterina, Budagov, Julian, Ceravolo, Sergio, Cervelli, Franco, Colao, Francesco, Cordelli, Marco, Corradi, Giovanni, Davydov, Yuri, Di Falco, Stefano, Diociaiuti, Eleonora, Donati, Simone, Echenard, Bertrand, Ferrari, Carlo, Gioiosa, Antonio, Giovannella, Simona, Giusti, Valerio, and Glagolev, Vladimir

Subjects

COSMIC rays, CALORIMETERS, MUONS, NEUTRINOLESS double beta decay, CRYSTALS, MAGNETIC fields

Abstract

The Mu2e experiment at Fermi National Accelerator Laboratory will search for the charged-lepton flavour-violating neutrinoless conversion of negative muons into electrons in the Coulomb field of an Al nucleus. The conversion electron with a monoenergetic 104.967 MeV signature will be identified by a complementary measurement carried out by a high-resolution tracker and an electromagnetic calorimeter, improving by four orders of magnitude the current single-event sensitivity. The calorimeter—composed of 1348 pure CsI crystals arranged in two annular disks—has a high granularity, 10% energy resolution and 500 ps timing resolution for 100 MeV electrons. The readout, based on large-area UV-extended SiPMs, features a fully custom readout chain, from the analogue front-end electronics to the digitisation boards. The readout electronics design was validated for operation in vacuum and under magnetic fields. An extensive radiation hardness certification campaign certified the FEE design for doses up to 100 krad and 10 12 n 1 MeVeq /cm 2 and for single-event effects. A final vertical slice test on the final readout chain was carried out with cosmic rays on a large-scale calorimeter prototype. [ABSTRACT FROM AUTHOR]

Published

2022

38. Towards a Large Calorimeter Based on Lyso Crystals for Future High Energy Physics.

Author

Schwendimann, Patrick, Gurgone, Andrea, and Papa, Angela

Subjects

ENERGY futures, CALORIMETERS, STANDARD model (Nuclear physics), CRYSTALS, PARTICLE physics

Abstract

The state-of-the-art research at the intensity frontier of particle physics aims to find evidence for new physics beyond the Standard Model by searching for faint signals in a vast amount of background. To this end, detectors with excellent resolution in all kinematic variables are required. For future calorimeters, a very promising material is LYSO, due to its short radiation length, fast decay time and good light yield. In this article, the simulation of a calorimeter assembled from multiple large LYSO crystals is presented. Although there is still a long way to go before crystals of that size can be produced, the results suggest an energy resolution of 1%, a position resolution around 5 mm and a time resolution of about 30 ps for photons and positrons with an energy of 55 MeV. These results would put such a calorimeter at the technology forefront in precision particle physics. [ABSTRACT FROM AUTHOR]

Published

2022

39. The CMS Level-1 Calorimeter Trigger for the HL-LHC.

Author

Kumar, Piyush and Gomber, Bhawna

Subjects

CALORIMETERS, STANDARD model (Nuclear physics), UNITS of measurement

Abstract

The High-Luminosity LHC (HL-LHC) provides an opportunity for a pioneering physics program to harness an integrated luminosity of 4000 fb − 1 of ten years of operations. This large volume of collision data will help in high precision measurements of the Standard Model (SM) and the search for new and rare physics phenomena. The harsh environment of 200 proton–proton interactions poses a substantial challenge in the collection of these large datasets. The HL-LHC CMS Level-1 (L1) trigger, including the calorimeter trigger, will receive a massive upgrade to tackle the challenge of a high-bandwidth and high pileup environment. The L1 trigger is planned to handle a very high bandwidth (∼63 Tb/s) with an output rate of 750 kHz, and the desired latency budget is 12.5 μ s. The calorimeter trigger aims to process the high-granular information from the new end-cap detector called the high-granularity calorimeter (HGCAL) and the barrel calorimeter. The HL-LHC trigger prototyped boards are equipped with large modern-day FPGAs and high-speed optical links (∼28 Gb/s), which helps in the parallel and rapid computation of the calorimeter trigger algorithms. This article discusses the proposed design and expected performance of the upgraded CMS Level-1 calorimeter trigger system. [ABSTRACT FROM AUTHOR]

Published

2022

40. Calorimetric studies of microwave ion thruster

Author

I. S. Vavilov, K. I. Zharikov, P. S. Yachmenev, V. V. Fedyanin, P. V. Stepen, A. I. Lukyanchuk, and I. A. Kuzmenko

Subjects

calorimeter, microwave, plasma, small spacecraft, nitrogen, thrust, speed, thermal imager, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The authors continue their work in the field of calorimetric studies of the parameters of an accelerated ionized gas jet of prototypes of microwave ion micro-thrusters with an energy consumption of up to 10 watts. This paper presents an improved calorimetric method. The introduction into the design of a heat receiver in the form of a thin screen makes it possible to allocate the thermal component formed by the passage of an electric current through the plasma in the accelerating gap. Calorimetric studies of the prototype with a two-electrode accelerating system are carried out at the same accelerating voltages and power of the microwave generator and different mass gas flow rates. It is shown that at a nitrogen consumption of 5,668•10–9 kg/s, the velocity of the mixed jet (neutral gas with ionized component) of the gas was 63,75 m/s, the jet thrust is 0,36 μN. With a nitrogen consumption of 1,611•10–8 kg/s, the speed of the mixed gas jet was 47,9 m/s, the jet thrust was 0,77 μN.

Published

2022

41. The Mu2e Digitizer ReAdout Controller (DiRAC): Characterization and radiation hardness.

Author

Atanov, N., Baranov, V., Bloise, C., Borrel, L., Ceravolo, S., Cervelli, F., Colao, F., Cordelli, M., Corradi, G., Davydov, Yu.I., Di Falco, S., Diociaiuti, E., Donati, S., Echenard, B., Fedeli, P., Ferrari, C., Gioiosa, A., Giovannella, S., Giusti, V., and Glagolev, V.

Subjects

*COSMIC rays, *NEUTRON beams, *CESIUM iodide, *MAGNETIC fields, *SILICON crystals

Abstract

The Mu2e experiment at Fermilab will search for the neutrino-less coherent conversion of a muon into an electron in the field of a nucleus. Mu2e detectors comprise a straw tracker, an electromagnetic calorimeter and a veto for cosmic rays. The calorimeter employs 1348 Cesium Iodide crystals readout by silicon photo-multipliers and fast front-end, and digitization electronics. The digitization board is named DiRAC (Digitizer ReAdout Controller) and 140 cards are needed for the readout of the full calorimeter. The DiRACs are hosted in crates located on the external surface of calorimeter disks, inside the detector solenoid cryostat and must sustain very high radiation and magnetic field so it was necessary to fully qualify it. Several version of prototypes were validated for operation in a high-vacuum (10−4 Torr) and under a 1T magnetic field. An extensive radiation hardness qualification campaign, carried out with photons, 14 MeV neutron beams, and 200 MeV protons, certified the DiRAC design to sustain doses up to 12 krad, neutron fluences up to ∼ 1 0 11 1 MeV n e q / cm 2 , and very low occurrences of single-event effects. The qualification campaigns and quality assurance procedures will be reviewed. [ABSTRACT FROM AUTHOR]

Published

2024

42. Experimental study on gamma heating rate measurement based on differential calorimeter.

Author

Shuai, Jin, Wenhua, Yang, liang, Zhang, and Yixiong, Sun

Subjects

*CALORIMETRY, *HEAT convection, *HEAT conduction, *CALORIMETERS, *HEAT radiation & absorption, *THERMAL resistance

Abstract

• A reliable theoretical calculation model is established to accurately calculate the gamma heating of materials. • Establishing a three-dimensional simulation analysis model can verify the theoretical calculation model. • The complex heat transfer process in calorimeter is analyzed quantitatively. This study focuses on the analysis of coupled heat transfer in a differential calorimeter, based on in-pile test data. The theoretical calculation method is developed by considering heat conduction, convection, and radiation. Additionally, a three-dimensional numerical simulation is conducted to compare and analyze the results. It has been observed that as the reactor power increases, the gamma heating of stainless steel and aluminum materials also increases in an approximately linear manner. When comparing the calculation methods, it can be deduced that there exists a significant thermal resistance at the cold end of the measuring cell. Based on the aforementioned analysis, the temperature calculated after modifying the numerical calculation model demonstrates a high level of agreement with the experimental data, with a maximum deviation of less than 2.46 °C. As the reactor power increases, the proportions of radiation and convection heat in both the calibration cell and the measuring cell also increase. Specifically, the proportion of heat dissipation in the measurement section of the calibration cell ranges from 0.72% to 1.51%, while in the measurement section of the measuring cell, it ranges from 3.69% to 9.41%. These values are relatively low, which is advantageous in minimizing the calculation deviation of gamma heating in materials. [ABSTRACT FROM AUTHOR]

Published

2024

43. Readout studies for the HIKE main electromagnetic calorimeter.

Author

Francesconi, M., Ambrosino, F., Antonelli, A., De Nardo, G., Di Donato, C., Di Meco, E., Diociaiuti, E., Fiorenza, R., Giordano, R., Massarotti, P., Merola, M., Mirra, M., Martellotti, S., Moulson, M., Napolitano, M., Paesani, D., Rosa, I., Saracino, G., Sarra, I., and Soldani, M.

Subjects

*DIGITAL-to-analog converters, *PULSE generators, *FEATURE extraction, *SPATIAL resolution, *KAONS

Abstract

The High-Intensity Kaon Experiment (HIKE) is a proposed future kaon experiment designed for the CERN SPS accelerator. To cope with a planned increase of beam intensity by a factor of 4 with respect to the current NA62 experiment, the new Main Electromagnetic Calorimeter (MEC) has to provide a similar improvement in time resolution over the current Liquid Krypton calorimeter, down to ≈ 100 ps for a 40 GeV photon, while maintaining a comparable energy and spatial resolution. To achieve these goals, the planned detector consists of a shashlik calorimeter paired with high-resolution analog to digital converter for both energy deposit and arrival time estimates, operating at fast sample rates (∼ 1 GHz). This contribution describes a prototype of the readout system using commercial "off-the-shelf" boards. In particular, we focused on feature extraction and tested it using a pulse generator. We included a data readout logic based on the TCP/IP protocol allows for easy deployment in beam tests. [ABSTRACT FROM AUTHOR]

Published

2024

44. Analytical Models for the Pulse Shape of a Superconductor-Ferromagnet Tunnel Junction Thermoelectric Microcalorimeter.

Author

Geng, Z. and Maasilta, I. J.

Subjects

*NUCLEAR counters, *THERMOELECTRIC effects, *ANALYTICAL solutions, *TUNNEL junctions (Materials science), *HIGH temperature superconductors, *ELECTRIC circuits, *THERMOELECTRIC materials

Abstract

The superconductor-ferromagnet thermoelectric detector (SFTED) is a novel ultrasensitive radiation detector based on the giant thermoelectric effect in superconductor-ferromagnet tunnel junctions. We demonstrate analytical models and solutions in the time domain for a SFTED operated as a microcalorimeter (pulse excitation), in the linear small-signal limit. Based on these solutions, the signal current and temperature pulse response were studied for two different electrical circuit models, providing design conditions for stable and non-oscillatory response.Kindly check and confirm whether the corresponding author is correctly identified.The corresponding author is correct. [ABSTRACT FROM AUTHOR]

Published

2022

45. Calorimetric Method for the Testing of Thermal Coefficients of the TIG Process.

Author

Mróz, Marek, Orłowicz, Antoni Władysław, Lenik, Magdalena, Trytek, Andrzej, and Tupaj, Mirosław

Subjects

*ELECTRIC welding, *TEST methods, *HEAT flux, *NOBLE gases, *WELDING, *HEAT resistant alloys, *ALUMINUM alloys

Abstract

This paper presents an original design of a test apparatus for calorimetric measurements of arc efficiency η and melting efficiency ηm in welding processes. The construction and principle of operation of a new flow calorimeter are described, as well as the method for determining the η and ηm values in the process of the surface melting of aluminium–silicon alloy casting surfaces with a concentrated heat flux generated by the TIG (Tungsten Inert Gas) method. The results obtained indicate the advisability of using calorimetric testing to assess the arc efficiency of welding processes. It was demonstrated that changing the welding current and arc scanning speed, as well as changing the chemical composition of the silumin, has an effect on the arc efficiency value η. This has the effect of introducing a different amount of heat into the area of the heated material. The consequence of this is a change in the value of the melting efficiency ηm, which results in a change in the width and depth of the surface melting areas, through this, the cooling conditions of the material. As is well known, this will affect the microstructure of the welds and the width and microstructure of the heat-affected zone, and thus the performance of the welded joints. [ABSTRACT FROM AUTHOR]

Published

2022

46. The probe‐format graphite calorimeter, Aerrow, for absolute dosimetry in ultrahigh pulse dose rate electron beams.

Author

Bourgouin, Alexandra, Keszti, Federico, Schönfeld, Andreas A., Hackel, Thomas, Kozelka, Jakub, Hildreth, Jeff, Simon, William, Schüller, Andreas, Kapsch, Ralf‐Peter, and Renaud, James

Subjects

*RADIATION dosimetry, *DOSIMETERS, *ELECTRON beams, *IONIZATION chambers, *CALORIMETERS, *MONTE Carlo method, *GRAPHITE, *FINITE element method

Abstract

Purpose: The purpose of this investigation is to evaluate the use of a probe‐format graphite calorimeter, Aerrow, as an absolute and relative dosimeter of high‐energy pulse dose rate (UHPDR) electron beams for in‐water reference and depth–dose‐type measurements, respectively. Methods: In this paper, the calorimeter system is used to investigate the potential influence of dose per pulses delivered up to 5.6 Gy, the number of pulses delivered per measurement, and its potential for relative measurement (depth–dose curve measurement). The calorimeter system is directly compared against an Advanced Markus ion chamber. The finite element method was used to calculate heat transfer corrections along the percentage depth dose of a 20‐MeV electron beam. Monte Carlo–calculated dose conversion factors necessary to calculate absorbed dose‐to‐water at a point from the measured dose‐to‐graphite are also presented. Results: The comparison of Aerrow against a fully calibrated Advanced Markus chamber, corrected for the saturation effect, has shown consistent results in terms of dose‐to‐water determination. The measured reference depth is within 0.5 mm from the expected value from Monte Carlo simulation. The relative standard uncertainty estimated for Aerrow was 1.06%, which is larger compared to alanine dosimetry (McEwen et al. https://doi.org/10.1088/0026‐1394/52/2/272) but has the advantage of being a real‐time detector. Conclusion: In this investigation, it was demonstrated that the Aerrow probe–type graphite calorimeter can be used for relative and absolute dosimetries in water in an UHPDR electron beam. To the author's knowledge, this is the first reported use of an absorbed dose calorimeter for an in‐water percentage depth–dose curve measurement. The use of the Aerrow in quasi‐adiabatic mode has greatly simplified the signal readout, compared to isothermal mode, as the resistance was directly measured with a high‐stability digital multimeter. [ABSTRACT FROM AUTHOR]

Published

2022

47. Get 73-2022 Special State Primary Standard of the Absorbed Dose and Absorbed Dose Rate to Tissue-Equivalent Material of X-Rays with a Limiting Photon Energy of 10–60 keV.

Author

Villevalde, A. Yu. and Oborin, A. V.

Subjects

*ABSORBED dose, *PRIMARIES, *IONIZATION chambers, *X-rays, *PHOTONS, *RADIOACTIVITY, *PHOTON beams

Abstract

The paper presents the composition, physical operating principles, and metrological characteristics of GET 73-2022 Special State Primary Standard of the absorbed dose and absorbed dose rate to tissue-equivalent material of X-rays with a limiting photon energy of 10–60 keV. The functional capabilities of GET 73-2022 meeting the current needs of low-energy X-ray radiation therapy, which includes brachytherapy, are described. Absorbed dose and absorbed dose rate to tissue-equivalent material (water) are realized via the ionization method using primary measuring instruments, i.e., standard extrapolation ionization chambers: EK-R for realizing units in the fields of low-energy X-ray sources (X-ray tubes) and EK-I designed for work with radionuclide sources used in brachytherapy. Dosimetric measurements performed using GET 73-2022 comply with modern requirements for accuracy, as well as the realization and transfer range of the units. [ABSTRACT FROM AUTHOR]

Published

2022

48. Effect of Exercise on the Resting Metabolic Rate and Substrate Utilization in Women with Gestational Diabetes Mellitus: Results of a Pilot Study.

Author

Taousani, Eleftheria, Savvaki, Dimitra, Tsirou, Efrosini, Grammatikopoulou, Maria G., Tarlatzis, Basil C., Vavilis, Dimitrios, and Goulis, Dimitrios G.

Subjects

GESTATIONAL diabetes, AQUATIC exercises, EXERCISE intensity, AEROBIC exercises, BODY composition, FITNESS walking, EXERCISE therapy, STRENGTH training

Abstract

Regular physical activity during pregnancy has a positive effect on the mother and fetus. However, there is scarce data regarding the effect of exercise in pregnancies complicated by gestational diabetes mellitus (GDM). The aim of the present parallel, non-randomized, open-label, pilot, clinical study was to examine the effect of two exercise programs on the resting metabolic rate (RMR) and substrate utilization in pregnancies complicated by GDM, compared with usual care (advice for the performance of exercise). Forty-three pregnant women diagnosed with GDM between the 24th and 28th gestational week, volunteered to participate. Three groups were formed: Usual care (n = 17), Walking (n = 14), and Mixed Exercise (n = 12). The Usual care group was given advice on maintaining habitual daily activities without any additional exercise. The Walking group exercised regularly by walking, in addition to the habitual daily activities. Finally, the Mixed Exercise group participated in a program combining aerobics and strength exercises. Training intensity was monitored continuously using lightweight, wearable monitoring devices. The Walking and Mixed Exercise groups participated in the training programs after being diagnosed with GDM and maintained them until the last week of gestation. RMR and substrate utilization were analyzed using indirect calorimetry for all participants twice: between 27th and 28th gestational week and as close as possible before delivery. No differences were observed between groups regarding body composition, age, and medical or obstetrical parameters before or after the exercise programs. RMR was increased after the completion of the exercise interventions in both the Walking (p = 0.001) and the Mixed Exercise arms (p = 0.002). In contrast, substrate utilization remained indifferent. In conclusion, regular exercise of moderate intensity (either walking, or a combination of aerobic and strength training) increases RMR in women with GDM compared to the lack of systematic exercise. However, based on the present, pilot data, these exercise regimes do not appear to alter resting substrate utilization. [ABSTRACT FROM AUTHOR]

Published

2022

49. Blind Benchmark Exercise for Spent Nuclear Fuel Decay Heat.

Author

Jansson, Peter, Bengtsson, Martin, Bäckström, Ulrika, Álvarez-Velarde, Francisco, Čalič, Dušan, Caruso, Stefano, Dagan, Ron, Fiorito, Luca, Giot, Lydie, Govers, Kevin, Solis, Augusto Hernandez, Hannstein, Volker, Ilas, Germina, Kromar, Marjan, Leppänen, Jaakko, Mosconi, Marita, Ortego, Pedro, Plukienė, Rita, Plukis, Arturas, and Ranta-Aho, Anssu

Subjects

*RADIOACTIVE decay, *SPENT reactor fuels, *PRESSURIZED water reactors, *NUCLEAR fuels, *DATA libraries

Abstract

The decay heat rate of five spent nuclear fuel assemblies of the pressurized water reactor type were measured by calorimetry at the interim storage for spent nuclear fuel in Sweden. Calculations of the decay heat rate of the five assemblies were performed by 20 organizations using different codes and nuclear data libraries resulting in 31 results for each assembly, spanning most of the current state-of-the-art practice. The calculations were based on a selected subset of information, such as reactor operating history and fuel assembly properties. The relative difference between the measured and average calculated decay heat rate ranged from 0.6% to 3.3% for the five assemblies. The standard deviation of these relative differences ranged from 1.9% to 2.4%. [ABSTRACT FROM AUTHOR]

Published

2022

50. Calorimetric testing of solar thermal absorbers for high vacuum flat panels.

Author

D'Alessandro, Carmine, De Maio, Davide, Caldarelli, Antonio, Musto, Marilena, Di Giamberardino, Francesco, Monti, Matteo, Mundo, Teresa, Di Gennaro, Emiliano, Russo, Roberto, and Palmieri, Vittorio G.

Subjects

*OPTICAL measurements, *SOLAR collectors, *TECHNOLOGICAL innovations, *SUNSHINE, *LOW temperatures

Abstract

• Precise measurements of SSA optical properties are performed in operating condition. • Indoor measurements (using LED) were verified with outdoor ones (sun illumination) • Precise performance of SSA designed for high vacuum flat collectors can be assessed. • Agreement with optical measurements is obtained only close to room temperature. • Calorimetric measurements become more precise as temperature increases. Among solar thermal collectors, the evacuated flat panel is emerging as a reference technology for operation at temperatures as high as 200 °C with an increased annual energy production owing to both direct and diffuse light capture. Accurate measurements of the optical properties of the selective absorbers used in such devices are key for a reliable estimation of the overall performance. These optical properties must be measured under high vacuum at high temperatures, conditions under which the panels are meant to operate. In this study, we accurately measured these properties using a calorimetric technique. The measurement procedure is based on a power balance equation for a flat sample absorber suspended in a high-vacuum chamber with minimized thermal losses and is well adapted for this class of devices. Calorimetric measurements obtained under Sun and LED light illumination revealed excellent reproducibility and good agreement with those obtained using traditional optical analysis at low temperatures in air. When extended up to the absorber stagnation temperature, which often exceeds 300 °C, the calorimetric measurements started to deviate from the optical measurements, indicating the importance of measuring under actual operating conditions. [ABSTRACT FROM AUTHOR]

Published

2022