New model of cost allocation for micro-cogeneration systems applied in multi-family buildings - with standard and new-type multi-source energy meters

The micro-cogeneration systems MCHP used in multi-family residential buildings do not allow for the proper division of costs between the owners of individual apartments, taking into account their different profiles of power and heat consumption, because of limitations resulting from current methods of cogeneration cost allocation. Moreover, the application of MCHP systems in multi-family buildings with separate ownership structures is limited to common areas of such buildings only. The new cogeneration cost allocation method and cost clearance systems presented, extend the application of micro-cogeneration systems to all multi-family communities, regardless of their scale and ownership structure. The cost clearance systems utilize standard energy meters and new-type multi-source energy meters that allow for distinction between which part of power passing through the meter comes from the grid and which from cogeneration (analogously for heat measurement). The model equally divides cogeneration operating costs between community members regardless of their different profiles of power and heat consumption, which, in turn, reduces energy prices for all community members. The number of multi-family communities in every country where MCHP application is possible shows the large-scale potential of these systems to supplement power generation in national grids and development of innovative green-promoting energy systems.

Automated summary

The cost allocation of micro-cogeneration systems used in multi-family residential buildings is currently limited, as it does not allow for proper division of costs between owners. However, a new cost allocation method and cost clearance system can address this issue by using energy meters to distinguish between grid and cogeneration power sources, and equally dividing operating costs among community members. This can reduce energy prices and has the potential to supplement national power grids and promote the development of green energy systems.