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Relative Humidity: A Control Valve of the Steam Engine Climate

Feistel, Rainer ; Hellmuth, Olaf

Ital Publication ; 2021

In: Journal of Human, Earth, and Future Vol. 2, No. 2 ( 2021-06-01), p. 140-182

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In: Journal of Human, Earth, and Future, Ital Publication, Vol. 2, No. 2 ( 2021-06-01), p. 140-182

Abstract: In the words of Heinrich Hertz in 1885, the Earth is a “gigantic steam engine”. On average, of the planet’s cross section exposed to sunlight, 72 % belong to the global ocean. With a delay of only 2-3 months, most of the heat absorbed there is released by evaporation rather than by thermal radiation. Water vapour is the dominating “greenhouse gas” of the marine troposphere with a typical relative humidity (RH) of 80 % at the surface. Observing the heat transport across the ocean surface permits insight in the powerhouse of the “steam engine”, controlled by the RH at the surface, a quantity that is often considered the “Cinderella” among the climate data. RH of the troposphere also controls cloud formation that is equally fundamental as challenging for climate research. As a precise and perfectly consistent thermodynamic basis for the description of such processes, the new oceanographic standard TEOS-10 was introduced by UNESCO/IOC in 2010 and IUGG in 2011. Its equations cover all thermodynamic properties of liquid water, seawater, ice and humid air, as well as their mutual equilibria and phase transitions. For harmonisation of the inconsistent RH definitions of humid air between meteorology and climatology, the relative fugacity has been defined as a physically more reasonable RH substitute that does not rely on the approximation of ideal gases. Doi: 10.28991/HEF-2021-02-02-06 Full Text: PDF

Type of Medium: Online Resource

ISSN: 2785-2997

URL: Article

DOI: 10.28991/HEF-2021-02-02-06

Language: Unknown

Publisher: Ital Publication

Publication Date: 2021

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Defining relative humidity in terms of water activity: III. Relations to dew-point and frost-point temperatures

Feistel, Rainer ; Hellmuth, Olaf ; Lovell-Smith, Jeremy

IOP Publishing ; 2022

In: Metrologia Vol. 59, No. 4 ( 2022-08-01), p. 045013-

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In: Metrologia, IOP Publishing, Vol. 59, No. 4 ( 2022-08-01), p. 045013-

Abstract: Relative humidity (RH) is a fundamental quantity used in many fields of engineering and science, and in particular in meteorology and climate research. Relative fugacity (RF) and, equivalently, relative activity of water vapour in humid air have recently been proposed as a physically well-founded, unambiguous common metrological reference quantity for several conventional but mutually inconsistent definitions of RH. The RF definition is valid is valid under real-gas conditions and above boiling and sublimation temperatures. While differences between RH and RF mostly remain within uncertainties of typical present-day RH measurements, such systematic discrepancies are expected to be of substantial climatological relevance. Consequently, interdisciplinary harmonisation of RH definitions is overdue within the SI framework. Dew-point and frost-point temperatures are preferred measurands in humidity metrology using, for example, chilled-mirror hygrometers. Here, relations are presented for estimating RF from those temperatures, based on equations of state of the 2011 IUGG 6 5 IUGG: International Union of Geodesy and Geophysics, https://iugg.org/ . standard TEOS-10, the ‘international thermodynamic equation of seawater—2010’. Recommendations are given for numerically computing RF using the open-source TEOS-10 SIA library 6 6 SIA Library: Sea-Ice-Air Library of TEOS-10, http://teos-10.org . . The asymptotic limiting laws of RF for nearly saturated humid air exhibit the familiar form of Clausius–Clapeyron-like equations, despite departing from ideal-gas assumptions. Under various practical conditions, these simple equations may cover the full humidity range with only minor residuals compared to the full numerical TEOS-10 solution for RF.

Type of Medium: Online Resource

ISSN: 0026-1394 , 1681-7575

URL: Article

DOI: 10.1088/1681-7575/ac7185

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2022

detail.hit.zdb_id: 1460891-1

SSG: 11

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