DOI:10.1007/s40565-015-0101-7 |
| |
| |
Renewable energy based microgrid system sizing and energy management for green buildings |
| |
|
| |
Page view: 122
Net amount: 2298 |
| |
Author:
Y. V. PAVAN KUMAR1,Ravikumar BHIMASINGU1
|
Author Affiliation:
1.Department of Electrical Engineering, Indian Institute of Technology Hyderabad (IITH,, Hyderabad, India
|
Foundation: |
|
|
|
Abstract: |
The objective of this paper is to model a hybrid power system for buildings, which is technically feasibleand economically optimal. With a view to promote renewable energy sources, photovoltaics and wind turbinesare integrated with the grid connected building. The systemis modeled and the optimal system configuration is estimated with the help of hybrid optimization model forelectric renewables (HOMER). The logic is illustrated with a case study based on the practical data of a building located in southern India. This building is associated with 3.4 MWh/day priority load (peak load as 422 kW), as well as 3.3 MWh/day deferrable load (peak load as 500 kW).Sensitivity analysis is performed to deal with uncertainties such as the increase in electricity consumption and gridtariff, environmental changes, etc. From the simulation result, it is observed that the designed system is costeffective and environment friendly, which leads to 6.18% annual cost savings and reduces CO2 emissions by 38.3 %.Sensitivity results indicate that the system is optimal andadaptable in a certain range of unanticipated variances with respect to best estimated value. Finally, an energy management strategy is developed for the optimal system toensure reliable power during contingency and disturbances.The green and hybrid power system designed can beadaptable to any critical and large consumers of urban buildings. |
Keywords: |
Renewable energy sources (RES), Hybridpower systems (HPS), Photovoltaic (PV), Wind turbine(WT), Low-carbon electricity, Energy management, Totalnet present cost (TNPC) |
| |
Online Time:2015/05/22 |
| |
|
|
View Full Text
Download reader
|
|
|