Loss Factor
Loss factor may refer to: * Loss factor, in real estate the percentage of the building's area shared by tenants or space that are dedicated to the common areas of a building used to calculate the difference between the net (usable) and gross (billable) areas. * Load-loss factor, in electricity distribution a ratio between average and peak values of loss of electric power between the generator and the consumer. * Dielectric loss In electrical engineering, dielectric loss quantifies a dielectric material's inherent dissipation of electromagnetic energy (e.g. heat). It can be parameterized in terms of either the loss angle or the corresponding loss tangent . Both refer ...

Common Area
A common area is, in real estate or real property law, the "area which is available for use by more than one person..." The common areas are those that are available for common use by all tenants, (or) groups of tenants and their invitees.kwcondo
In Texas and other parts of the United States, it is "An area inside a housing development owned by all residents or by an overall management structure which charges each tenant for maintenance and upkeep."Common Area
laws.com retrieved from real-estate.laws.com Accessed 28 November 2012. Common areas often exist in apartments, gated communities, Condominium (living space), condominiums, cooperatives, and shopping malls. In any situation where there is a tena ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]  

Load-loss Factor
Load-loss factor (also loss load factor, LLF, or simply loss factor) is a dimensionless ratio between average and peak values of load loss (loss of electric power between the generator and the consumer in electricity distribution). Since the losses in the wires are proportional to the square of the current (and thus the square of the power), the LLF can be calculated by measuring the square of delivered power over a short interval of time (typically half an hour), calculating an average of these values over a long period (a year), and dividing by the square of the peak power exhibited during the same long period: :=\frac , where * NI is the total number of short intervals (there are 8760 hours or 17,520 half-hours in a year); * _i is the load experienced during the short interval i; * _ is the peak load within the long interval (typically a year). The LLF value naturally depends on the load profile. For electricity utilities, numbers about 0.2-0.3 are typical (cf. 0.22 for Tor ...
[...More Info...]       [...Related Items...]     OR:     [Wikipedia]   [Google]   [Baidu]