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Relevant bibliographies by topics / Global Earthing System

Academic literature on the topic 'Global Earthing System'

Author: Grafiati

Published: 14 March 2023

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Journal articles on the topic "Global Earthing System"

1

Davies, Mark, Robert Weller, and Stephen Tucker. "Estimation of substation earth impedance in a global earthing system." CIRED - Open Access Proceedings Journal 2017, no. 1 (October 1, 2017): 621–24. http://dx.doi.org/10.1049/oap-cired.2017.0299.

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Colella, Pietro, Enrico Pons, and Riccardo Tommasini. "A Comparative Review of the Methodologies to Identify a Global Earthing System." IEEE Transactions on Industry Applications 53, no. 4 (July 2017): 3260–67. http://dx.doi.org/10.1109/tia.2017.2680399.

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Pons, Enrico, Pietro Colella, Riccardo Tommasini, Roberto Napoli, Pasquale Montegiglio, Giuseppe Cafaro, and Francesco Torelli. "Global Earthing System: Can Buried Metallic Structures Significantly Modify the Ground Potential Profile?" IEEE Transactions on Industry Applications 51, no. 6 (November 2015): 5237–46. http://dx.doi.org/10.1109/tia.2015.2422824.

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Cafaro, Giuseppe, Pasquale Montegiglio, Francesco Torelli, Antonino Barresi, Pietro Colella, Angelo De Simone, Maria Luisa Di Silvestre, et al. "Influence of LV Neutral Grounding on Global Earthing Systems." IEEE Transactions on Industry Applications 53, no. 1 (January 2017): 22–31. http://dx.doi.org/10.1109/tia.2016.2608325.

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Pons, Enrico, Pietro Colella, Roberto Napoli, and Riccardo Tommasini. "Impact of MV Ground Fault Current Distribution on Global Earthing Systems." IEEE Transactions on Industry Applications 51, no. 6 (November 2015): 4961–68. http://dx.doi.org/10.1109/tia.2015.2417836.

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6

Chevalier, Gaétan, Stephen T. Sinatra, James L. Oschman, Karol Sokal, and Pawel Sokal. "Earthing: Health Implications of Reconnecting the Human Body to the Earth's Surface Electrons." Journal of Environmental and Public Health 2012 (2012): 1–8. http://dx.doi.org/10.1155/2012/291541.

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Environmental medicine generally addresses environmental factors with a negative impact on human health. However, emerging scientific research has revealed a surprisingly positive and overlooked environmental factor on health: direct physical contact with the vast supply of electrons on the surface of the Earth. Modern lifestyle separates humans from such contact. The research suggests that this disconnect may be a major contributor to physiological dysfunction and unwellness. Reconnection with the Earth's electrons has been found to promote intriguing physiological changes and subjective reports of well-being. Earthing (or grounding) refers to the discovery of benefits—including better sleep and reduced pain—from walking barefoot outside or sitting, working, or sleeping indoors connected to conductive systems that transfer the Earth's electrons from the ground into the body. This paper reviews the earthing research and the potential of earthing as a simple and easily accessed global modality of significant clinical importance.

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Guo, Qinglin, Yanwu Wang, Wenwu Chen, Qiangqiang Pei, Manli Sun, Shanlong Yang, Jingke Zhang, and Yumin Du. "Key Issues and Research Progress on the Deterioration Processes and Protection Technology of Earthen Sites under Multi-Field Coupling." Coatings 12, no. 11 (November 4, 2022): 1677. http://dx.doi.org/10.3390/coatings12111677.

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Since 2006, with the implementation of a series of national research projects in the field of earthen site conservation, the Chinese theoretical foundation and technological conservation system for the protection of earthen sites in arid environments has gradually formed. However, there are some global problems such as an unclear relationship between characteristics of diseases on sites and their existing environment, unclear deterioration mechanisms under multi-field coupling, immature stability control technology under dynamic loading, the poor suitability of protection process quality assessment equipment, and a lack of systematic research on comprehensive protection synergy mechanisms. On the basis of summarizing the research achievements in the field of earthen site conservation in China for more than 30 years, and a large number of practical experiences in earthen site reinforcement engineering, this paper expounds the multi-field coupling characteristics of earthen site construction technology, the climatic environment, and dynamic loading and protection measure activities, clarifies the main characteristics of the protection of earthen sites in China at present, puts forward the key scientific and technical problems existing in the conservation of earthen sites, constructs a picture of the research on the conservation of earthen sites under the action of multi-field coupling, and discusses the protection projects of earthen sites under different environments. We hope the technological system can provide support for the transformation of earthen site conservation from the rescuing conservation stage to the stage of both rescuing and preventive conservation, and move the foundation of earthen site conservation towards the stage of preventive protection.

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C.V., Papade, Shubham Bollu, Sagar Isargunde, Onkar Pawar, and Vijaykant Swami. "CFD ANALYSIS OF SOLAR OPERATED EARTHEN POTAIR COOLER." International Journal of Innovative Research in Advanced Engineering 8, no. 7 (July 30, 2021): 156–60. http://dx.doi.org/10.26562/ijirae.2021.v0807.003.

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The present air-ventilation methods are evaporative coolers, air conditioning, fans. But running these products need high-rate electricity. The production of electricity is ultimately responsible for hot and humid conditions i.e., global warming. In hot and humid conditions, the need to feel relaxed and comfortable has become one of few needs and for this purpose utilization of systems like air-conditioning and refrigeration has increased rapidly. These systems are most of the time not suitable for villages due to longer power cut duration and the high cost of products. Solar power systems being considered as one of the paths towards more sustainable energy systems, considering solar cooling systems in villages would comprise of many attractive features. This technology can efficiently serve large latent loads and greatly improve indoor air quality by allowing more ventilation while tightly controlling humidity. Despite increasing performance and mandatory energy efficiency requirements, peak electricity demand is growing and there is currently no prevalent solar air-cooling technology suited to residential. This research CFD analysis of solar operated earthen pot air cooler for domestic applications. Velocity airflow within the Earthen Pot in that air velocity has been increased with reducing the pressure results the temperature variation. In Temperature contour the temperature rate reduces with 8 to 10 OC of room temperature and the analysis gives the temperature difference and air velocity variations.

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Houben, Hugo, Alejandro Alva Balderrama, and Stefan Simon. "Our Earthen Architectural Heritage: Materials Research and Conservation." MRS Bulletin 29, no. 5 (May 2004): 338–41. http://dx.doi.org/10.1557/mrs2004.101.

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AbstractEarth construction is the oldest and most universal architectural expression on our planet. The most ancient human settlements were built with raw earth, and even today at least 30% of the world's population still lives in earthen homes. The conservation of earthen architecture depends of two aspects of a global strategy. One part involves intervention to preserve existing structures, and the second involves continuing to use the construction methods and materials in contemporary and future building practices. Traditionally, earth construction has been approached in an empirical way. Only recently have those involved in the field felt it necessary to develop a specific materials research attitude. This has resulted in major technological progress over the last 20 years. The wide range of building systems emphasizes the technological diversity of earth construction. This article presents a historical perspective, along with a review of the characteristics of earth as a building material, stabilization processes, and construction methods, and a report on an ongoing research program aimed at identifying and characterizing the fundamental binding mechanisms responsible for cohesion properties in earthen construction.

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Kausar, Saad, Muhammad Imran Ashraf, and Fiza Siddiq. "Corona Pandemic: Analyzing the Response of US, China, Russia, India and Pakistan." Global Foreign Policies Review III, no. I (December 30, 2020): 33–41. http://dx.doi.org/10.31703/gfpr.2020(iii-i).04.

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This article is an effort to examine socio-political and economic impact of COVID-19 to state system global politics. Further, this study analyzes the response of US, China, Russia, India and Pakistan to Covid-19. Starting in December of 2019, first suspected as a mild cold in a seafood merchant of Hua'nan market was proved to be a fine example of "Butterfly" or you may call it "Domino" effect. At first it was taken by the world community an epidemic later regarded as a global pandemic engulfing over million of earthlings in matter of days, responsible for seizing its originating country and crippling the world's economy. As of 26 March 2020, the number of confirmed cases in the country is 1,179, with 21 recoveries and 9 deaths. World Health Organization has appreciated Pakistan for taking meaningful and timely steps deal with Corona Virus. The efforts to deal with Covid-19 by states with the help of World Health organization (WHO) are admirable. WHO is urging all countries to prepare for the potential arrival of COVID-19 by readying emergency response systems; increasing capacity to detect and care for patients; ensuring hospitals have the space, supplies and necessary personnel; and developing life-saving medical interventions. States in their own operational capacity are working around; Preparedness & Response, Containment and Mitigation.

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Book chapters on the topic "Global Earthing System"

1

Bun, H. V., and L. X. Thanh. "Impact of power harmonics on precise and discriminative tripping of the relay system for earthing protection in underground 6 kV grids of Qung Ninh underground mines." In Empowering Science and Mathematics for Global Competitiveness, 28–34. CRC Press, 2019. http://dx.doi.org/10.1201/9780429461903-5.

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deBuys, William. "Oracle: Global-Change-Type Drought." In A Great Aridness. Oxford University Press, 2011. http://dx.doi.org/10.1093/oso/9780199778928.003.0007.

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In the sprawling, climate-controlled, glass- and steel-ribbed tent of Biosphere II, Dave Breshears is killing trees. Together with Henry Adams, his graduate student accomplice, he arranged to have piñon pines dug up and hauled in from northern New Mexico. Next he saw to their replanting and watering, got them rooted, growing, and happy, and then—for some, but not for all—shut off the water. Breshears wants to find out what makes them die. Biosphere II is an unlikely setting for controlled experiments in tree murder—or for anything else. Rising from the Arizona desert like the main terminal of a misplaced airport, its design sexy and futuristic, it is full of the pride of technology and the promise of discovery. In its integration of multiple volumetric forms and vast banks of windows, it might be the architectural love child of the Bilbao Guggenheim Museum and a backyard greenhouse. A scanty procession of tourists detours from the beaten path to pay twenty dollars a head to enter the structure, which was meant to be an indoor replication of everything outdoors. It is a proto–space station: Biosphere II was conceived as a living and breathing microcosm of Biosphere I, the planet Earth. Bankrolled by the Texas oilman and investor Edward P. Bass, the creators of Biosphere II hoped that it would serve as a laboratory where earthlings might learn to package (and eventually export) their bubble of life to distant planets and solar systems. Toward that end, in September 1991, with much fanfare and not a little criticism, eight so-called biospherians, four men and four women, were sealed inside the three-acre complex for a two-year stay. Socially and biologically, the expectations were utopian: they were to grow their own food, maintain a life-supporting atmosphere, and get along as a team. Functionally the results were quite different. After thirteen months, said one, “We were starving, suffocating and going quite mad.”

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McClain, W. Ray. "Crayfish Aquaculture." In Fisheries and Aquaculture, 260–84. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780190865627.003.0011.

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Crayfish have been in demand as desirable food items around the globe for centuries, and entrepreneurs have capitalized on this demand by developing and applying aquaculture principals for the intentional culture of this freshwater crustacean. The current state of the art has advanced within the last half century and is centered on a handful of species, represented by three different families, with some level of commercial production occurring on all continents except Antarctica. Procambarus clarkii (family Cambaridae), a native of south central USA, is cultured in the USA and China and easily forms the bulk of farm-raised and wild-captured crayfish globally. One North American species (Pacifastacus leniusculus) and two European species (Astacus astacus and A. leptodactylus) constitute the main cultured species from the family Astacidae and are grown in small operations throughout Europe and parts of Asia. Four species (Parastacidae), all natives of Oceania, are cultured in their native ranges and were also introduced for aquaculture in several locations around the globe. Cherax destructor and C. albidus, both commonly referred to as yabby, are medium-size crayfish and share similar life histories, whereas C. quadricarinatus (redclaw crayfish) and C. cainii (smooth marron) are larger and more valuable but have very different geographical origins. While commercial crayfish aquaculture is typically based on an extensive or semi-extensive production approach in earthen ponds, more intensive approaches may involve selective breeding, improved strains, brood or nursery phases, and use of raceways or recirculation systems. Pond size can range from 0.05 to 80 ha, depending on the species cultured. Harvesting is accomplished mainly by baited trap, although other gear and techniques are sometimes employed. Global crayfish aquaculture production has expanded significantly in the last decade, due largely to the integration of Procambarus clarkii with that of rice production in the USA and China. This integrated system of production works well because rice farming has similar requirements as crayfish aquaculture, such as clay soils, irrigation systems, and suitable climates; furthermore, the rice crop residue provides the base of the food web for furnishing sustenance to growing crayfish.

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Conference papers on the topic "Global Earthing System"

1

Rajkumarsingh, B., and S. Goolaup. "Modeling an earthing system using labview." In 2013 IEEE Global Engineering Education Conference (EDUCON). IEEE, 2013. http://dx.doi.org/10.1109/educon.2013.6530193.

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2

Colella, Pietro, and Enrico Pons. "An Analytical Procedure to Identify a Global Earthing System." In 2018 IEEE International Conference on Environment and Electrical Engineering and 2018 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe). IEEE, 2018. http://dx.doi.org/10.1109/eeeic.2018.8494548.

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3

Desmedt, M. "Use of a global earthing system to implement the safety requirements for protecting against indirect contacts in HV systems." In 16th International Conference and Exhibition on Electricity Distribution (CIRED 2001). IEE, 2001. http://dx.doi.org/10.1049/cp:20010732.

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4

Fickert, L., C. Raunig, M. J. Lindinger, and E. Schmautzer. "Verification of global earthing systems." In 22nd International Conference and Exhibition on Electricity Distribution (CIRED 2013). Institution of Engineering and Technology, 2013. http://dx.doi.org/10.1049/cp.2013.0539.

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5

Cafaro, Giuseppe, Pasquale Montegiglio, Francesco Torelli, Pietro Colella, Enrico Pons, Riccardo Tommasini, and Giovanni Valtorta. "Global earthing systems: Characterization of buried metallic parts." In 2016 IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC). IEEE, 2016. http://dx.doi.org/10.1109/eeeic.2016.7555723.

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6

Campoccia, A., and G. Zizzo. "Simple Circuit Models for Studying Global Earthing Systems." In 2007 IEEE Power Tech. IEEE, 2007. http://dx.doi.org/10.1109/pct.2007.4538615.

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7

Cafaro, G., P. Montegiglio, F. Torelli, A. Barresi, P. Colella, A. De Simone, M. L. Di Silvestre, et al. "Influence of LV neutral grounding on global Earthing Systems." In 2015 IEEE 15th International Conference on Environment and Electrical Engineering (EEEIC). IEEE, 2015. http://dx.doi.org/10.1109/eeeic.2015.7165193.

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8

Fickert, Lothar, Thomas Mallits, and Markus Resch. "Earth fault current distribution and proof method of global earthing systems." In 2018 19th International Scientific Conference on Electric Power Engineering (EPE). IEEE, 2018. http://dx.doi.org/10.1109/epe.2018.8395964.

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9

Colella, Pietro, Enrico Pons, and Riccardo Tommasini. "The identification of global earthing systems: A review and comparison of methodologies." In 2016 IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC). IEEE, 2016. http://dx.doi.org/10.1109/eeeic.2016.7555837.

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Mallits, Thomas, Ernst Schmautzer, Lothar Fickert, Thomas Hohn, and Elisabeth Hufnagl. "The role of global earthing systems to ensure the reliability of electrical networks." In 2016 51st International Universities Power Engineering Conference (UPEC). IEEE, 2016. http://dx.doi.org/10.1109/upec.2016.8114122.

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