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Journal articles on the topic 'Ambient conditions'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 September 2023

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1

Calas, G., G. E. Brown, F. Farges, L. Galoisy, J. P. Itie, and A. Polian. "Cations in glasses under ambient and non-ambient conditions." Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 97, no. 1-4 (May 1995): 155–61. http://dx.doi.org/10.1016/0168-583x(94)00709-8.

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2

Stajic, Jelena. "Quantum effects in ambient conditions." Science 356, no. 6344 (June 22, 2017): 1243.3–1243. http://dx.doi.org/10.1126/science.356.6344.1243-c.

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3

Abbott, Andrew P., Robert C. Harris, Yi-Ting Hsieh, Karl S. Ryder, and I.-Wen Sun. "Aluminium electrodeposition under ambient conditions." Phys. Chem. Chem. Phys. 16, no. 28 (2014): 14675–81. http://dx.doi.org/10.1039/c4cp01508h.

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The electrodeposition of aluminium is demonstrated using a eutectic mixture of aluminium chloride and urea and the use of a protective alkane layer enable aluminium to be deposited under ambient conditions.
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4

Bailey, Alan J., Sandeep Basra, and Paul J. Dyson. "Homogeneous dehydrosulfurisation under ambient conditions." Green Chemistry 1, no. 1 (1999): 31–32. http://dx.doi.org/10.1039/a808023b.

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5

Plaisier, Jasper Rikkert, Lara Gigli, and Andrea Lausi. "MCX@Elettra: powder diffraction in ambient and non-ambient conditions." Acta Crystallographica Section A Foundations and Advances 73, a2 (December 1, 2017): C317. http://dx.doi.org/10.1107/s2053273317092567.

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6

Balema, Viktor P., Ihor Z. Hlova, Scott L. Carnahan, Mastooreh Seyedi, Oleksandr Dolotko, Aaron J. Rossini, and Igor Luzinov. "Depolymerization of polystyrene under ambient conditions." New Journal of Chemistry 45, no. 6 (2021): 2935–38. http://dx.doi.org/10.1039/d0nj05984f.

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Ball milling of polystyrene under ambient conditions in metal containing vials causes scission of macromolecules, resulting in partial dismantling to styrene. Reactions proceeds via intermediate carbon-based free radicals that are detectable by EPR.
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7

REZUNKOV, Yu A., A. A. AGEICHIK, Yu P. GOLOVACHOV, Yu A. KURAKIN, V. V. STEPANOV, and A. A. SCHMIDT. "Laser Propulsion at Ambient Vacuum Conditions." Review of Laser Engineering 29, no. 4 (2001): 268–73. http://dx.doi.org/10.2184/lsj.29.268.

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8

Proksch, Roger, Ken Babcock, and Jason Cleveland. "Magnetic dissipation microscopy in ambient conditions." Applied Physics Letters 74, no. 3 (January 18, 1999): 419–21. http://dx.doi.org/10.1063/1.123047.

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9

Xiao, J., P. Liu, and G. W. Yang. "Nanodiamonds from coal under ambient conditions." Nanoscale 7, no. 14 (2015): 6114–25. http://dx.doi.org/10.1039/c4nr06186a.

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Nanodiamonds with a cubic phase and a mean size of 3 nm are synthesized from various types of coal at atmospheric pressure and room temperature using a novel process involving laser ablation in liquid.
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10

Kalkowski, G., S. Risse, and V. Guyenot. "Electrostatic chuck behaviour at ambient conditions." Microelectronic Engineering 61-62 (July 2002): 357–61. http://dx.doi.org/10.1016/s0167-9317(02)00501-4.

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11

Lin, Wei Shen, Yueh-Hua Han, Ting-Yu Chang, Chong Mou Wang, Cheng-Hsun-Tony Chang, and Jyh-Shen Tsay. "Photomagnetic Carbon Nanotubes at Ambient Conditions." Journal of Physical Chemistry C 119, no. 35 (August 25, 2015): 20673–80. http://dx.doi.org/10.1021/acs.jpcc.5b04532.

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12

Hölscher, Rebecca, Wolf Gero Schmidt, and Simone Sanna. "Modeling LiNbO3 Surfaces at Ambient Conditions." Journal of Physical Chemistry C 118, no. 19 (May 6, 2014): 10213–20. http://dx.doi.org/10.1021/jp502936f.

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13

Wu, Chunping, Allison L. Dill, Livia S. Eberlin, R. Graham Cooks, and Demian R. Ifa. "Mass spectrometry imaging under ambient conditions." Mass Spectrometry Reviews 32, no. 3 (September 20, 2012): 218–43. http://dx.doi.org/10.1002/mas.21360.

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14

Tang, Kechao. "Radiation modulated electrically at ambient conditions." Matter 6, no. 3 (March 2023): 660–62. http://dx.doi.org/10.1016/j.matt.2023.01.031.

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15

Kasuganti, Aneetha Rao. "Do ambient conditions in offices impact learning?" Facilities 36, no. 5/6 (April 3, 2018): 291–307. http://dx.doi.org/10.1108/f-03-2016-0027.

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Purpose The purpose of this paper is to investigate the relationship between satisfaction with ambient conditions and perceptions of situated learning in knowledge-intensive organizations. The paper argues that satisfaction with ambient conditions facilitates situated learning in open office environments. Design/methodology/approach A cross-sectional study was conducted on 117 professionals from IT and consultancy companies. Hierarchical linear regression was used to analyze the impact of satisfaction with ambient conditions on perceptions of situated learning. Findings Learning that occurs in everyday activities on the job is enhanced by satisfying ambient conditions in the physical environments of open offices. Originality/value The paper contributes to literature on organizational learning by examining aspects of the physical environment as antecedents of organizational learning, thereby providing insights for design and management of office environments to maximize employee outcomes.
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16

van Limbeek, Michiel A. J., Olinka Ramírez-Soto, Andrea Prosperetti, and Detlef Lohse. "How ambient conditions affect the Leidenfrost temperature." Soft Matter 17, no. 11 (2021): 3207–15. http://dx.doi.org/10.1039/d0sm01570a.

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17

Glampedaki, Pelagia. "Advanced Polyester Textiles Adaptive to Ambient Conditions." Advances in Science and Technology 100 (October 2016): 17–26. http://dx.doi.org/10.4028/www.scientific.net/ast.100.17.

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The combination of polyelectrolyte microgel technology with conventional functionalisation methods to activate the surface of polyester textiles is an innovative approach towards textiles adaptive to their environment. Biopolymer microgel complexes consisting of soft synthetic pH/thermo-responsive microparticles and natural polysaccharide macromolecules in various combinations serve as a novel textile surface functionalising system. Microgel incorporation into polyester surface layers can be achieved with non-demanding techniques such as UV irradiation. The adaptivity of the functionalised textiles to ambient conditions of varying pH, temperature and relative humidity is expressed by changes in their physicochemical and water management properties. These changes occur within a physiological pH/temperature range of the human body (pH 4-8, 20-40°C), owing to the corresponding stimuli-responsive properties of the functionalising microgels, giving scope for applications in the fields of biomedicine and protective clothing. Indicatively, such changes involve a shift in polyester surface charge from positive to negative values at a pH range 5.0-6.6, following the trend of the incorporated polyelectrolytes. Below 36°C, functionalised textiles exhibit improved water wettability, whilst above 36°C they have lower moisture regain and higher water vapour transmission rates than the non-functionalised textiles. The manifestation of the imparted adaptivity to ambient conditions is also a function of the intrinsic characteristics (e.g. porosity, surface roughness) of the textile, allowing for suitable combinations of substrates and functionalizing systems with tailored properties.
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18

Li, Jialu, Libo Yao, Dezhen Wu, and Zhenmeng Peng. "Electro Oxidation of Methane Under Ambient Conditions." ECS Meeting Abstracts MA2021-02, no. 49 (October 19, 2021): 1428. http://dx.doi.org/10.1149/ma2021-02491428mtgabs.

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19

Balema, Viktor P., Ihor Z. Hlova, Scott L. Carnahan, Mastooreh Seyedi, Oleksandr Dolotko, Aaron J. Rossini, and Igor Luzinov. "Correction: Depolymerization of polystyrene under ambient conditions." New Journal of Chemistry 45, no. 10 (2021): 4867. http://dx.doi.org/10.1039/d1nj90029c.

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20

Kelley, Edward F., John Penczek, and Paul A. Boynton. "24.1: Character Contrast under Uniform Ambient Conditions." SID Symposium Digest of Technical Papers 40, no. 1 (2009): 321. http://dx.doi.org/10.1889/1.3256776.

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21

Pietsch, U. "Electron density determination under not ambient conditions." Acta Crystallographica Section A Foundations of Crystallography 60, a1 (August 26, 2004): s1. http://dx.doi.org/10.1107/s0108767304099994.

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22

Ho, Huong L. T., and Robert A. W. Dryfe. "Metallisation of gel surfaces under ambient conditions." Chemical Communications 47, no. 40 (2011): 11318. http://dx.doi.org/10.1039/c1cc14472c.

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23

Pollard, Benjamin J., Amarpreet S. Chawla, David M. Delong, Noriyuki Hashimoto, and Ehsan Samei. "Object detectability at increased ambient lighting conditions." Medical Physics 35, no. 6Part1 (May 6, 2008): 2204–13. http://dx.doi.org/10.1118/1.2907566.

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24

Zhao, Chenglong, Piyush J. Shah, and Luke J. Bissell. "Laser additive nano-manufacturing under ambient conditions." Nanoscale 11, no. 35 (2019): 16187–99. http://dx.doi.org/10.1039/c9nr05350f.

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25

Larter, Raima. "Bright Electroluminescence from monolayers in ambient conditions." Scilight 2019, no. 27 (July 5, 2019): 270001. http://dx.doi.org/10.1063/1.5116704.

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26

Zeng, H. C., and Y. Y. Lim. "Synthesis of Co3O4 Spinel at Ambient Conditions." Journal of Materials Research 15, no. 6 (June 2000): 1250–53. http://dx.doi.org/10.1557/jmr.2000.0181.

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Co3O4 was prepared in aqueous solutions through a staged oxidation process. When the mole ratio of starting chemicals Co2+:OH− is ≤1:2 (Co2+ as a limiting reagent), the formation reaction follows the brucitelike phase to cobalt oxide-hydroxide, and then to cubic spinel. However, when the ratio of Co2+:OH− is > 1:2 (OH− as a limiting reagent), the reaction path changes to the brucite-like to hydrotalcite-like phase, and then to the spinel. Using the present method, Co3O4 can be formed at a temperature as low as 40 °C, and single-phase spinel Co3O4 can be prepared at 50 °C within hours under normal atmospheric pressure.
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27

Mani, S. V., T. Vesala, J. A. Raper, and G. J. Jameson. "Evaporation of polydisperse organicaerosols at ambient conditions." Journal of Aerosol Science 22 (1991): S81—S84. http://dx.doi.org/10.1016/s0021-8502(05)80039-4.

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28

Hansen, Anne S., and Henrik G. Kjaergaard. "Dimethyl Sulfoxide Complexes Detected at Ambient Conditions." Journal of Physical Chemistry A 121, no. 32 (August 8, 2017): 6046–53. http://dx.doi.org/10.1021/acs.jpca.7b06102.

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29

Ahmad, Md Imteyaz, and Mufit Akinc. "Hydration of ZrW2O8 nanopowders under ambient conditions." Materials Chemistry and Physics 145, no. 3 (June 2014): 403–6. http://dx.doi.org/10.1016/j.matchemphys.2014.02.028.

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30

Garcı́a-Calzada, Marta, Gregorio Marbán, and Antonio B. Fuertes. "Decomposition of CaS particles at ambient conditions." Chemical Engineering Science 55, no. 9 (May 2000): 1661–74. http://dx.doi.org/10.1016/s0009-2509(99)00409-1.

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31

Sweevers, H., F. Delalieux, and R. Van Grieken. "Weathering of dolomitic sandstone under ambient conditions." Atmospheric Environment 32, no. 4 (February 1998): 733–48. http://dx.doi.org/10.1016/s1352-2310(97)00341-5.

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32

Wang, Na, Jian Wang, Yu-Long Guo, Lei Li, Yan Sun, Zhuang Li, Hong-Xia Zhang, Zhen Guo, Zhong-Liang Li, and Xin-Yuan Liu. "Oximinotrifluoromethylation of unactivated alkenes under ambient conditions." Chemical Communications 54, no. 64 (2018): 8885–88. http://dx.doi.org/10.1039/c8cc05186k.

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33

Burkhard, Dorothee J. M. "Iron-bearing silicate glasses at ambient conditions." Journal of Non-Crystalline Solids 275, no. 3 (October 2000): 175–88. http://dx.doi.org/10.1016/s0022-3093(00)00252-0.

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34

Shen, Jun, Jue Wang, Jiwei Zhai, Yanzhi Guo, Guangming Wu, Bin Zhou, and Xingyuan Ni. "Carbon Aerogel Films Synthesized at Ambient Conditions." Journal of Sol-Gel Science and Technology 31, no. 1-3 (August 2004): 209–13. http://dx.doi.org/10.1023/b:jsst.0000047989.39431.d5.

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35

Xia, Houchun. "Vehicle acceleration performance correction for ambient conditions." International Journal of Vehicle Design 21, no. 4/5 (1999): 481. http://dx.doi.org/10.1504/ijvd.1999.005598.

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36

Leary, Edmund, M. Teresa González, Cornelia van der Pol, Martin R. Bryce, Salvatore Filippone, Nazario Martín, Gabino Rubio-Bollinger, and Nicolás Agraït. "UnambiguousOne-Molecule Conductance Measurements under Ambient Conditions." Nano Letters 11, no. 6 (June 8, 2011): 2236–41. http://dx.doi.org/10.1021/nl200294s.

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37

Al-Tavil, E. A., N. V. Krasnov, M. Z. Muradymov, I. V. Kurnin, and M. N. Krasnov. "Dropless ESI for IMS at ambient conditions." International Journal for Ion Mobility Spectrometry 22, no. 2 (May 22, 2019): 85–91. http://dx.doi.org/10.1007/s12127-019-00250-2.

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38

Mu, Li Zhuo, Ying Ping Jia, Jing Mei Yin, Guang Yun Zhou, Ying Na Cui, and Da Bin Gao. "Photopromoted carbonylation of bromobenzene under ambient conditions." Chinese Chemical Letters 20, no. 5 (May 2009): 531–34. http://dx.doi.org/10.1016/j.cclet.2009.01.008.

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39

Cao, Na, and Gengfeng Zheng. "Aqueous electrocatalytic N2 reduction under ambient conditions." Nano Research 11, no. 6 (May 22, 2018): 2992–3008. http://dx.doi.org/10.1007/s12274-018-1987-y.

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40

Liu, Yuan, Jia-Ni Chen, Xiang Li, Yu-Ting Shi, Ming-Ming Chen, and Dawei Cao. "Fluorination of graphene oxide at ambient conditions." Diamond and Related Materials 91 (January 2019): 107–11. http://dx.doi.org/10.1016/j.diamond.2018.11.010.

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41

Kunkely, Horst, and Arnd Vogler. "Phosphorescence of permercurated osmocene at ambient conditions." Inorganic Chemistry Communications 11, no. 6 (June 2008): 669–71. http://dx.doi.org/10.1016/j.inoche.2008.02.007.

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42

Bachinger, Angelika, Joraine Rössler, and Leif E. Asp. "Electrocoating of carbon fibres at ambient conditions." Composites Part B: Engineering 91 (April 2016): 94–102. http://dx.doi.org/10.1016/j.compositesb.2016.01.027.

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43

Said, Meena, and Amy E. Hixon. "Microscopy and spectroscopy of plutonium dioxide aging under ambient and near-ambient conditions." Journal of Alloys and Compounds 854 (February 2021): 156277. http://dx.doi.org/10.1016/j.jallcom.2020.156277.

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44

Burlinguette, N. A., M. L. Strawford, J. M. Watts, H. L. Classen, P. J. Shand, and T. G. Crowe. "Broiler trailer thermal conditions during cold climate transport." Canadian Journal of Animal Science 92, no. 2 (June 2012): 109–22. http://dx.doi.org/10.4141/cjas2011-027.

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Burlinguette, N. A., Strawford, M. L., Watts, J. M., Classen, H. L., Shand, P. J. and Crowe, T. G. 2012. Broiler trailer thermal conditions during cold climate transport. Can. J. Anim. Sci. 92: 109–122. Thermal environments within broiler transport vehicles are dependent on ambient conditions and, if poorly managed, can be a welfare concern. To effectively manage broiler transport, the environmental conditions throughout vehicles must be understood. Under standard commercial practices, temperature and humidity levels in double-trailer broiler vehicles were examined for a range of ambient temperatures (−24 to 11°C). During warmer ambient conditions (9.8°C) trailer roof vents and side curtains were all open, which resulted in a narrowing of the on-board temperature range (10.3 to 16.7°C). As ambient temperature cooled side curtains and some of the roof vents were closed. This resulted in increasingly variable and more extreme thermal conditions, with heat and moisture accumulated along the midline of the load near the front of the lead trailer and near the back of the rear trailer. At an ambient temperature of −22.1°C trailer temperatures ranged from −20.7 to 21.7°C with an estimated 58.6% of the load volume being exposed to temperatures below 0°C. In addition, the trailer humidity ratio rose 14.0 g kg−1 above ambient and conditions approached saturation (RH>80%) in 55.2% of the load volume. These results support the need to find a means to remove moisture and redistribute heat on broiler trailers during cold ambient conditions.
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45

Shigeru Suna. "Pollutants and climatic conditions related to the smoking rate." World Journal of Biology Pharmacy and Health Sciences 8, no. 2 (November 30, 2021): 034–41. http://dx.doi.org/10.30574/wjbphs.2021.8.2.0119.

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Smoking is considered a coping behavior for stress. On the other hand, pollutants and climatic conditions are environmental stressors that can have a negative impact on health. Therefore, there may be a link between regional smoking rate and air pollution and climatic conditions. To clarify the relationship between the regional smoking rate in Japan and the environmental conditions such as photochemical oxidants concentration, ambient temperature and relative humidity, multiple regression analysis was performed. Correlation analysis showed that the ambient temperature and relative humidity and photochemical oxidants are negatively correlated with smoking rate. Stepwise multiple regression analysis with smoking rate as the objective variable, the ambient temperature and relative humidity and photochemical oxidants as explanatory variables, revealed that the ambient temperature and relative humidity and photochemical oxidants are significant independent variables. The above results suggest that ambient temperature, relative humidity and photochemical oxidants in the region may be related to smoking rate in the region.
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46

Galli, Simona. "Powder diffraction structural studies at ambient and non-ambient conditions on porous coordination polymers." Acta Crystallographica Section A Foundations of Crystallography 65, a1 (August 16, 2009): s101. http://dx.doi.org/10.1107/s010876730909802x.

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47

Xin, Shishan, Dianchen Du, Fangxu Wang, Qi Rui, Qinglin Wang, Xiaoliang Zhao, Jianfu Li, Dongjiang Yang, Hongyang Zhu, and Xiaoli Wang. "An energetic phase of ZnN6 at ambient conditions." Physica B: Condensed Matter 617 (September 2021): 413139. http://dx.doi.org/10.1016/j.physb.2021.413139.

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48

Kishor, Arun, Raj Narayan, Manoj Brijwal, Brij Lal Attri, Anil Kumar, and Sovan Debnath. "Storage behaviour of apple cultivars under ambient conditions." Indian Journal of Horticulture 75, no. 2 (2018): 319. http://dx.doi.org/10.5958/0974-0112.2018.00054.3.

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49

Hai, N. H., N. D. Phu, N. H. Luong, N. Chau, H. D. Chinh, L. H. Hoang, and D. L. Leslie-Pelecky. "Mechanism for Sustainable Magnetic Nanoparticles under Ambient Conditions." Journal of the Korean Physical Society 52, no. 5 (May 15, 2008): 1327–31. http://dx.doi.org/10.3938/jkps.52.1327.

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50

-, Chitranayak, Premkumar Jaiswal, P. S. Minz, Amita D. Vairat, Khushbu Kumari, and P. N. Raju. "Quality Dahi Preparation in Automated Controlled Ambient Conditions." International Journal of Bio-resource and Stress Management 12, no. 2 (April 30, 2021): 082–88. http://dx.doi.org/10.23910/1.2021.2185.

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This automated controlled system eliminates the need of two separate places for incubation of the curd at higher temperature in the range of 39 to 43°C and then shifting the set curd cups into cold rooms for storage purpose and kept at about 4 to 5°C.The transient cooling process of dahi, set in cups and also in steel containers placed in cold air flow was conducted in this experimental study. Recording of the temperature of dahi-cups and of the supplied air were done at regular intervals until the temperature reached below 4°C to 5°C. The exponential curves of cooling by forced convection process for the dimensionless temperature of curd were obtained for the trials conducted at the different velocities of cooling air flow. It was found that the surface heat transfer coefficient increased and duration of cooling decreased by increasing the air velocities from 0.5 m/s by evaluating the Biot number and surface heat transfer coefficient. In the initial period of cooling this pattern was more effective and reduced for higher velocities of air from 3.5 to 4.5 m/s. The method of incubation and storing dahi-cups at the same place and changing the ambient temperature of the whole environment instead of changing the place of dahi-cups for cooling purpose have been applied in this research work to control the problem of whey-off in set-curd.
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