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The continental climates of Eurasia and North America are referred to as microthermal climatology. Two Greek words that signify “tiny” and “heat” are the root of the phrase “microthermal.”
The term is only meant to represent the temperature conditions that exist during the winter months, not the conditions throughout the entire year, therefore this is inaccurate.
According to the original Köppen classification, a microthermal climate is defined as having an average monthly temperature that is colder than -3 °C (26,4 F).
The line where the environment was probably cold enough to allow a constant period of continuous snow cover every year was observed to be at -3 °C for the coldest monthly mean temperature.
This definition places practically all of the world’s microthermal climates in the Northern Hemisphere since, with few exceptions, the sea prevents the existence of such temperature conditions at upper-middle latitudes in the Southern Hemisphere due to the absence of wide land masses.
Based on the summertime temperature features, microthermal climates are often categorized into three types. The southernmost of the three features hot summers, or at least one month with an average temperature of 22 °C (71.6 °F) or higher, and is usually referred to as the temperate continental climate.
No summer month there averages more than 22 °C, yet at least four months will still average at 10 °C (50 °F) or above. This region is frequently referred to as the hemiboreal zone.
The subarctic, also known as the boreal zone, is the northernmost of the three microthermal zones; it borders the polar regions and only experiences average temperatures above 10 °C for one to three months out of the year.
A microthermal gas meter enables customers to continuously track their gas usage in order to fully manage their energy expenses while also being more aware of their everyday use of gas resources.
The Global microthermal gas meter market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Natural gases in classes H, L, and E (as specified in EN437) as well as natural gas combinations, including unconventional fuel gases with a hydrogen content of up to 25%, are covered by Sensirion SGM6200 Microthermal Gas Meters.
The SGM6200 family produces temperature-compensated natural gas quantities that are compatible with widely used natural gas billing systems.
The SGM6200 gas meter modules’ small size enables the construction of small gas meters for straightforward field installation, even in tight spaces.
One AA Li/SOCl2 cell is adequate for more than 15 years of module operation because of its extremely low power consumption.
The static metering mechanism used by the microthermal meters allows for noiseless operation and extremely low current consumption of less than 10 A. The SGM6200 series satisfies both present and foreseeable market demands.
