scholarly journals Standardizing Performance Metrics for Building-Level Electrical Distribution Systems

Energies ◽  
2021 ◽  
Vol 15 (1) ◽  
pp. 136
Author(s):  
Moazzam Nazir ◽  
Omkar Ghatpande ◽  
Willy Bernal Heredia ◽  
Cameron Wierzbanowski ◽  
Daniel Gerber ◽  
...  

Building-level electrical distribution systems comprise a myriad of current-carrying equipment, conversion devices, and protection devices that deliver power from the utility or local distributed energy resources to end-use building loads. Electric power has traditionally been generated, transmitted, and distributed in ac. However, the last decade has seen a significant increase in the integration of native dc equipment that has elevated the importance of dc distribution systems. Numerous studies have comparatively examined the performance of various electrical distribution systems in buildings but have failed to achieve uniform conclusions, primarily because of a lack of consistent and analogous performance evaluation methods. This paper aims to fill this gap by providing a standard set of metrics and measurement boundaries to consistently evaluate the performance of ac, dc, or hybrid ac/dc electrical distribution systems. The efficacy of the proposed approach is evaluated on a representative medium-sized commercial office building model with ac distribution and an equivalent hybrid ac/dc and dc distribution model, wherein the ac distribution model is concluded to be the most efficient. The simulation results show variation in computed metrics with different selected boundaries that verify the effectiveness of the proposed approach in ensuring consistent computation of the performance of building-level electrical distribution systems. This paper provides an initial set of guidelines for building energy system stakeholders to adopt appropriate solutions, thus leading to more efficient energy systems.

2015 ◽  
Vol 51 (3) ◽  
pp. 1781-1792 ◽  
Author(s):  
Michael Terorde ◽  
Housam Wattar ◽  
Detlef Schulz

2021 ◽  
Author(s):  
Taghi Karimipanah

It is well-known fact that air conditioning systems are responsible for a significant part of all energy systems in building energy usage. In EU buildings, the building HVAC systems account for ca 50% of the energy consumed. In the U.S., air-conditioning accounts on average about 12% of residential energy expenditures. The proper choice of air distribution systems and sustainable energy sources to drive the electrical components have a vital impact to achieve the best requirements for indoor climate including, hygienical, thermal, and reasonable energy-saving goals. The building energy system components that have a considerable impact on the demand for final energy in the building are design, outdoor environment conditions, HVAC systems, water consumption, electrical appliances, indoor thermal comfort, and indoor human activities. For calculation of the energy balance in a building, we need to consider the total energy flows in and out from the building including ventilation heat losses, the perimeters transmission heat loses, solar radiation, internal heat from occupants and appliances, space and domestic water heating, air leakage, and sewage heat losses. However, it is a difficult task to handle the above time-dependent parameters therefore an energy simulation program will always be used. This chapter aims to assess the role of ventilation and air-conditioning of buildings through the sustainability approaches and some of the existing renewable energy-based methods of HVAC systems are presented. This comprehensive review has been shown that using the new air distribution systems in combination with renewable energy sources are key factors to improve the HVAC performance and move toward Nearly Zero Carbon Buildings (NZCB).


Author(s):  
Xavier Dominguez ◽  
Pablo Arboleya ◽  
Paola Mantilla-Perez ◽  
Islam El-Sayed ◽  
Nuria Gimenez ◽  
...  

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