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Artículos de revistas sobre el tema "Heat control"

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Publicado: 4 de junio de 2021
Última modificación: 11 de febrero de 2022

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1

Randeep Singh, Masataka Mochizuki, Thang Nguyen, Yuji Saito, Kazuhiko Goto y Koichi Mashiko. "G060041 Loop Heat Pipe for Datacenter Thermal Control". Proceedings of Mechanical Engineering Congress, Japan 2012 (2012): _G060041–1—_G060041–5. http://dx.doi.org/10.1299/jsmemecj.2012._g060041-1.

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2

Luyben, William L. "Heat-Exchanger Bypass Control". Industrial & Engineering Chemistry Research 50, n.º 2 (19 de enero de 2011): 965–73. http://dx.doi.org/10.1021/ie1020574.

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3

AIHARA, Toshio. "Rapid Transient Heat Transfer and Heat-Transfer Control." TEION KOGAKU (Journal of Cryogenics and Superconductivity Society of Japan) 30, n.º 7 (1995): 316–23. http://dx.doi.org/10.2221/jcsj.30.316.

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4

Aihara, Toshio. "Rapid Transient Heat Transfer and Heat-Transfer Control". Journal of the Society of Mechanical Engineers 96, n.º 892 (1993): 219–23. http://dx.doi.org/10.1299/jsmemag.96.892_219.

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5

Romanovsky, A. A. y C. M. Blatteis. "Heat defense control in an experimental heat disorder". International Journal of Biometeorology 43, n.º 4 (13 de marzo de 2000): 172–75. http://dx.doi.org/10.1007/s004840050005.

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6

Klein, Jenna C., Craig G. Crandall, R. Matthew Brothers y Jason R. Carter. "Combined heat and mental stress alters neurovascular control in humans". Journal of Applied Physiology 109, n.º 6 (diciembre de 2010): 1880–86. http://dx.doi.org/10.1152/japplphysiol.00779.2010.

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This study examined the effect of combined heat and mental stress on neurovascular control. We hypothesized that muscle sympathetic nerve activity (MSNA) and forearm vascular responses to mental stress would be augmented during heat stress. Thirteen subjects performed 5 min of mental stress during normothermia (Tcore; 37 ± 0°C) and heat stress (38 ± 0°C). Heart rate, mean arterial pressure (MAP), MSNA, forearm vascular conductance (FVC; venous occlusion plethysmography), and forearm skin vascular conductance (SkVCf; via laser-Doppler) were analyzed. Heat stress increased heart rate, MSNA, SkVCf, and FVC at rest but did not change MAP. Mental stress increased MSNA and MAP during both thermal conditions; however, the increase in MAP during heat stress was blunted, whereas the increase in MSNA was accentuated, compared with normothermia (time × condition; P < 0.05 for both). Mental stress decreased SkVCf during heat stress but not during normothermia (time × condition, P < 0.01). Mental stress elicited similar increases in heart rate and FVC during both conditions. In one subject combined heat and mental stress induced presyncope coupled with atypical blood pressure and cutaneous vascular responses. In conclusion, these findings indicate that mental stress elicits a blunted increase of MAP during heat stress, despite greater increases in total MSNA and cutaneous vasoconstriction. The neurovascular responses to combined heat and mental stress may be clinically relevant to individuals frequently exposed to mentally demanding tasks in hyperthermic environmental conditions (i.e., soldiers, firefighters, and athletes).
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7

Dulău, Mircea, Stelian Oltean y Adrian Gligor. "Conventional Control vs. Robust Control on Heat-exchangers". Procedia Technology 19 (2015): 534–40. http://dx.doi.org/10.1016/j.protcy.2015.02.076.

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8

Go, Han-Seo. "Heat and Mass Control Laboratory". Journal of the Korean Society of Visualization 7, n.º 1 (31 de agosto de 2009): 35–40. http://dx.doi.org/10.5407/jksv.2009.7.1.035.

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9

Kanoh, H. y M. Yoshida. "Stabilizing Control of Heat Exchangers". IFAC Proceedings Volumes 18, n.º 9 (agosto de 1985): 175–80. http://dx.doi.org/10.1016/s1474-6670(17)60280-5.

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10

Bradley, David. "Jumping droplets control heat flow". Materials Today 15, n.º 1-2 (enero de 2012): 10. http://dx.doi.org/10.1016/s1369-7021(12)70007-x.

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11

Lelevkina, L. G., S. N. Sklyar y O. S. Khlybov. "Optimal control of heat conductivity". Automation and Remote Control 69, n.º 4 (abril de 2008): 654–67. http://dx.doi.org/10.1134/s0005117908040127.

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12

Oliver, Russell. "ACOUSTIC AND HEAT CONTROL DEVICE". Journal of the Acoustical Society of America 133, n.º 2 (2013): 1195. http://dx.doi.org/10.1121/1.4790230.

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13

Schibuola, Luigi. "Humidity control by heat reclaim". International Journal of Energy Research 25, n.º 13 (2001): 1207–19. http://dx.doi.org/10.1002/er.754.

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14

Tuzcu, Ilhan. "Vibration Control Using Heat Actuators". World Journal of Mechanics 06, n.º 08 (2016): 223–37. http://dx.doi.org/10.4236/wjm.2016.68018.

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15

Liščić, Božidar. "Heat Transfer Control During Quenching". Materials and Manufacturing Processes 24, n.º 7-8 (28 de mayo de 2009): 879–86. http://dx.doi.org/10.1080/10426910902917694.

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16

Alimov, Sh A. "A heat exchange control problem". Doklady Mathematics 78, n.º 1 (agosto de 2008): 568–69. http://dx.doi.org/10.1134/s106456240804025x.

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17

Shaffer, Jacob E. "Heat Pump Water Heater Control". IEEE Transactions on Industry Applications IA-21, n.º 5 (septiembre de 1985): 1254–56. http://dx.doi.org/10.1109/tia.1985.349550.

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18

Panniers, R. "Translational control during heat shock". Biochimie 76, n.º 8 (enero de 1994): 737–47. http://dx.doi.org/10.1016/0300-9084(94)90078-7.

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19

Prilepko, A. I. y A. B. Kostin. "Boundary control of heat conduction". Computational Mathematics and Modeling 7, n.º 4 (1996): 427–30. http://dx.doi.org/10.1007/bf01128139.

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20

Prilepko, A. I. y A. B. Kostin. "Control of heat conduction process". Computational Mathematics and Modeling 5, n.º 1 (1994): 91–97. http://dx.doi.org/10.1007/bf01128582.

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21

Kordonsky, W. I., S. P. Gorodkin y S. A. Demchuk. "Magnetorheological control of heat transfer". International Journal of Heat and Mass Transfer 36, n.º 11 (julio de 1993): 2783–88. http://dx.doi.org/10.1016/0017-9310(93)90097-p.

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22

Panferov, V. I. y S. V. Panferov. "The Heat Carrier Flow Control in Heat Transport Systems". Bulletin of the South Ural State University. Ser. Computer Technologies, Automatic Control & Radioelectronics 16, n.º 3 (2016): 32–39. http://dx.doi.org/10.14529/ctcr160304.

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23

Mojžiš, M., I. Vitázek, F. Varga y S. Lindák. "Experimental determination of lethal doses of heat in thermal weed control". Research in Agricultural Engineering 61, Special Issue (2 de junio de 2016): S9—S12. http://dx.doi.org/10.17221/20/2015-rae.

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Thermal weed control performed by weeders working on physical principles is already commonly used on farms dealing with bioproducts. It helps to reduce strenuous human labour and to effectively control weeds and, to some extent, pests and diseases threatening the crops. It also prevents other weeds from spreading by destroying them in the early growth stage. In addition, development of weeds is inhibited when the soil is not being ploughed. Effective deployment of these machines in practice is currently addressed by experts in the field, as well as the possibility of rational use of heat energy while achieving the maximum effect on weeds. This method in particular helps to reduce costs of thermal treatment, which are the key factor limiting widespread deployment of weeders. The paper introduces long-term research based on laboratory and field experiments, which is intended to broaden the knowledge regarding this issue.
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24

TSYNAEVA, Anna A. y Ekaterina A. TSYNAEVA. "RESEARCH OF AUTOMATIC HEAT CONTROL SYSTEMS". Urban construction and architecture 6, n.º 2 (15 de junio de 2016): 129–34. http://dx.doi.org/10.17673/vestnik.2016.02.23.

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This paper deals with automatic control systems of heat consumption of buildings. As a method of study we used computational and theoretical method using the theory of differential equations, control theory, methods of analysis and synthesis, including the numerical experiment. In this paper, a comparison of the characteristics of an automated heat control system in buildings, using the heat pump from the low-grade heat source, as well as conventional systems, receiving heat from the CHP for heat networks. Numerical study carried out for conditions of autumn-spring period, as during the research of heat system, the environment is selected as the low-grade heat source. Moreover, It is analysed climatic conditions start of the heating period in 2014 and 2015. for the city of Samara. Based on the numerical investigation revealed that for the autumnspring period automated heat system with a heat pump has a lower inertia than a conventional system with.
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25

Wang, Lijuan y Qishu Yan. "Time Optimal Controls of Semilinear Heat Equation with Switching Control". Journal of Optimization Theory and Applications 165, n.º 1 (2 de julio de 2014): 263–78. http://dx.doi.org/10.1007/s10957-014-0606-7.

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26

Ueno, S., S. Iwaki, K. Tazume y K. Ara. "Control of heat transport in heat pipes by magnetic fields". Journal of Applied Physics 69, n.º 8 (15 de abril de 1991): 4925–27. http://dx.doi.org/10.1063/1.348202.

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27

Subaşi, Murat. "Optimal Control of Heat Source in a Heat Conductivity Problem". Optimization Methods and Software 17, n.º 2 (enero de 2002): 239–50. http://dx.doi.org/10.1080/1055678021000012444.

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28

Matsugi, Daiki, Tsuneyoshi Matsuoka, Yuji Nakamura y Ken Matsuyama. "A Constant-temperature Heat Flux Sensor with Heat Feedback Control". Proceedings of the Thermal Engineering Conference 2018 (2018): 0070. http://dx.doi.org/10.1299/jsmeted.2018.0070.

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29

Brito, F. P., Jorge Martins, Esra Hançer, Nuno Antunes y L. M. Gonçalves. "Thermoelectric Exhaust Heat Recovery with Heat Pipe-Based Thermal Control". Journal of Electronic Materials 44, n.º 6 (10 de febrero de 2015): 1984–97. http://dx.doi.org/10.1007/s11664-015-3638-3.

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30

Weibel, Franco-Peter y Klaas Boersma. "An improved stem heat balance method using analog heat control". Agricultural and Forest Meteorology 75, n.º 1-3 (junio de 1995): 191–208. http://dx.doi.org/10.1016/0168-1923(94)02200-4.

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31

Zaheeruddin, M., V. G. Gourishankar y R. E. Rink. "Dynamic suboptimal control of a heat pump/heat storage system". Optimal Control Applications and Methods 9, n.º 4 (29 de octubre de 2007): 341–55. http://dx.doi.org/10.1002/oca.4660090402.

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32

Klemeš, Jiří Jaromír y Petar Sabev Varbanov. "Heat integration including heat exchangers, combined heat and power, heat pumps, separation processes and process control". Applied Thermal Engineering 43 (octubre de 2012): 1–6. http://dx.doi.org/10.1016/j.applthermaleng.2012.03.044.

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33

Yamazaki, Fumio y Kunshige Hamasaki. "Heat acclimation increases skin vasodilation and sweating but not cardiac baroreflex responses in heat-stressed humans". Journal of Applied Physiology 95, n.º 4 (octubre de 2003): 1567–74. http://dx.doi.org/10.1152/japplphysiol.00063.2003.

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In the present study, to test the hypothesis that exercise-heat acclimation increases orthostatic tolerance via the improvement of cardiac baroreflex control in heated humans, we examined cardiac baroreflex and thermoregulatory responses, including cutaneous vasomotor and sudomotor responses, during whole body heating before and after a 6-day exercise-heat acclimation program [4 bouts of 20-min exercise at 50% peak rate of oxygen uptake separated by 10-min rest in the heat (36°C; 50% relative humidity)]. Ten healthy young volunteers participated in the study. On the test days before and after the heat acclimation program, subjects underwent whole body heat stress produced by a hot water-perfused suit during supine rest for 45 min and 75° head-up tilt (HUT) for 6 min. The sensitivity of the arterial baroreflex control of heart rate (HR) was calculated from the spontaneous changes in beat-to-beat arterial pressure and HR. The HUT induced a presyncopal sign in seven subjects in the preacclimation test and in six subjects in the postacclimation test, and the tilting time did not differ significantly between the pre- (241 ± 33 s) and postacclimation (283 ± 24 s) tests. Heat acclimation did not change the slope in the HR-esophageal temperature (Tes) relation and the cardiac baroreflex sensitivity during heating. Heat acclimation decreased ( P < 0.05) the Tes thresholds for cutaneous vasodilation in the forearm and dorsal hand and for sweating in the forearm and chest. These findings suggest that short-term heat acclimation does not alter the spontaneous baroreflex control of HR during heat stress, although it induces adaptive change of the heat dissipation response in nonglabrous skin.
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34

Kopets, Miroslav M. ,. "Optimal Control of Heat Transfer Process". Journal of Automation and Information Sciences 46, n.º 8 (2014): 27–37. http://dx.doi.org/10.1615/jautomatinfscien.v46.i8.40.

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35

Spagnolo, Roger T., Tiago V. Custódio, César S. de Morais, Ângelo V. dos Reis y Antônio L. T. Machado. "HEAT-APPLICATOR MACHINE FOR WEED CONTROL". Engenharia Agrícola 40, n.º 5 (octubre de 2020): 595–600. http://dx.doi.org/10.1590/1809-4430-eng.agric.v40n5p595-600/2020.

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36

Samuel, Cregut, Bourgeois Jean François y Thomas Gérard. "Robust Control of Electric Heat Exchangers". IFAC Proceedings Volumes 29, n.º 1 (junio de 1996): 6001–6. http://dx.doi.org/10.1016/s1474-6670(17)58642-5.

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37

Iwata, Naoko, Hiroyuki Ogawa y Yoshiro Miyazaki. "OSCILLATING HEAT PIPES WITH TEMPERATURE CONTROL". Heat Pipe Science and Technology, An International Journal 3, n.º 2-4 (2012): 223–31. http://dx.doi.org/10.1615/heatpipescietech.2013006555.

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38

Johnson, Arthur F. "4676299 Pollution control and heat recovery". Atmospheric Environment (1967) 21, n.º 12 (enero de 1987): iii. http://dx.doi.org/10.1016/0004-6981(87)90225-3.

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39

Khare, Yuvraj Bhushan y Yaduvir Singh. "PID Control of Heat Exchanger System". International Journal of Computer Applications 8, n.º 6 (10 de octubre de 2010): 22–27. http://dx.doi.org/10.5120/1213-1742.

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40

Bügl, Hans, Eric B. Fauman, Bart L. Staker, Fuzhong Zheng, Sidney R. Kushner, Mark A. Saper, James C. A. Bardwell y Ursula Jakob. "RNA Methylation under Heat Shock Control". Molecular Cell 6, n.º 2 (agosto de 2000): 349–60. http://dx.doi.org/10.1016/s1097-2765(00)00035-6.

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41

Álvarez, J. D., L. J. Yebra y M. Berenguel. "Repetitive control of tubular heat exchangers". Journal of Process Control 17, n.º 9 (octubre de 2007): 689–701. http://dx.doi.org/10.1016/j.jprocont.2007.02.003.

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42

Dulău, Mircea, Melania Karoly y Tudor-Mircea Dulău. "Fluid temperature control using heat exchanger". Procedia Manufacturing 22 (2018): 498–505. http://dx.doi.org/10.1016/j.promfg.2018.03.058.

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43

Carpio, E. V. y J. H. Merritt. "Heat Pump Dryer With Computer Control". Canadian Institute of Food Science and Technology Journal 19, n.º 4 (octubre de 1986): xlvi. http://dx.doi.org/10.1016/s0315-5463(86)71598-8.

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44

Kempton, Willett. "Two Theories of Home Heat Control*". Cognitive Science 10, n.º 1 (enero de 1986): 75–90. http://dx.doi.org/10.1207/s15516709cog1001_3.

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45

Aguilera, Néstor y Jacinto L. Marchetti. "Supervisor Control of Heat Exchanger Networks". IFAC Proceedings Volumes 28, n.º 19 (septiembre de 1995): 69–74. http://dx.doi.org/10.1016/s1474-6670(17)45060-9.

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46

Dames, Chris. "Pulling together to control heat flow". Nature Nanotechnology 7, n.º 2 (febrero de 2012): 82–83. http://dx.doi.org/10.1038/nnano.2012.4.

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47

Tang Yu, R. Ortega y R. Kelly. "Adaptive control of a heat exchanger". IEEE Control Systems Magazine 7, n.º 1 (febrero de 1987): 45–47. http://dx.doi.org/10.1109/mcs.1987.1105237.

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48

KOTAKE, Susumu. "Heat Transfer Control with Molecular Dynamics". Journal of the Society of Mechanical Engineers 93, n.º 864 (1990): 900–901. http://dx.doi.org/10.1299/jsmemag.93.864_900.

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49

YABE, Akira. "Heat Transfer Control Utilizing Electric Fields". Journal of the Society of Mechanical Engineers 93, n.º 864 (1990): 902–3. http://dx.doi.org/10.1299/jsmemag.93.864_902.

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50

OTA, Terukazu. "Heat Transfer Control in Separated Flow". Journal of the Society of Mechanical Engineers 93, n.º 864 (1990): 912–13. http://dx.doi.org/10.1299/jsmemag.93.864_912.

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