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This is a documentation subpage for Template:Climate chart. It may contain usage information, categories and other content that is not part of the original template page. Before making any changes to the template, please first try your changes in the /sandbox and compare them on the /testcases page.
The energy factor metric only applies to residential water heaters, which are currently defined by fuel, type, and input capacity. [5] Generally, the EF number represents the thermal efficiency of the water heater as a percentage, since it is an average of the ratio of the theoretical heat required to raise the temperature of water drawn to the amount of energy actually consumed by the water ...
The figures are fairly similar between the above collectors, yielding some 4 kWh/day in a temperate climate and some 8 kWh/day in a tropical climate when using a collector with a 2 m 2 absorber. In the temperate scenario this is sufficient to heat 200 litres of water by some 17 °C. In the tropical scenario the equivalent heating would be by ...
Example: For a heat pump delivering 120,000,000 BTU during the season, when consuming 15,000 kWh, the HSPF can be calculated as : HSPF = 120000000 (BTU) / (1000) / 15000 (kWh) HSPF = 8. The HSPF is related to the non-dimensional Coefficient of Performance (COP) for a heat pump, which measures the ratio of heat delivered to work done by the ...
The blue numbers are the amount of precipitation in either millimeters (liters per square meter) or inches. The red numbers are the average daily high and low temperatures for each month, and the red bars represent the average daily temperature span for each month. The thin gray line is 0 °C or 32 °F, the point of freezing, for orientation.
Standing loss, or standing losses, is a non-technical term to define energy losses in a system, usually associated with heat and hot water storage systems.It is the amount of energy lost through heat transfer to the surrounding environment; as such it is directly related to how well insulated a system is.
A decatherm or dekatherm [5] (dth or Dth) is 10 therms, which is 1,000,000 British thermal units or 1.055 GJ. [6] [7] It is a combination of the prefix for 10 (deca, often with the US spelling "deka") and the energy unit therm.
The findings are presented in units of global warming potential per unit of electrical energy generated by that source. The scale uses the global warming potential unit, the carbon dioxide equivalent (CO 2 e), and the unit of electrical energy, the kilowatt hour (kWh). The goal of such assessments is to cover the full life of the source, from ...