Research Article Journal of Energy Management and Technology (JEMT) Vol. 5, Issue 2 71Table 6. Basic and optimized parameters in building energy consumptionBuilding Block Block A Block B Block C Block D Middle lobbyEnergy Cost (USD/m2/year) 13*, 5.40** 13*,6.47** 13.6*, 6.66** 14.1*, 5.89** 14.1*, 8.03**Effective Factor Input parameterBuilding Orientation BIMWWR (S) BIM (20%)%u25e6 BIM (22%)%u25e6 BIM (23%)%u25e6 BIM (21%)%u25e6 BIM (25%)%u25e6Window Shades BIM*2/3 Win Height**Window Glass BIM (Sgl Clr) *Trp LoE**WWR (N) BIM (16%)%u25e6 BIM (18%)%u25e6 BIM (21%)%u25e6 BIM (21%)%u25e6 BIM (15%)%u25e6Window Shades BIM%u25e6Window Glass BIM (Sgl Clr)%u25e6WWR (W) BIM (5%) * BIM (7%) * BIM (8%) * BIM (10%) * BIM (14%) *(0%) **Window Shades BIM*BIM (No Shade) **Window Glass BIM (Sgl Clr) *BIM (No Window) **WWR (E) BIM (7%) * BIM (9%) * BIM (7%) * BIM (5%) * BIM (13%) *(0%) **Window Shades BIM*BIM (No Shade) **Window Glass BIM (Sgl Clr) *BIM (No Window) **Wall Construction BIM (Concrete Masonry Units) *R13+R10 Metal**Roof Construction BIM (Concrete, Cast In Situ)%u25e6Infiltration BIM (None)*0.17 ACH**Lighting Efficiency BIM (10.76 W/m2) *3.23 W/m2**Daylighting and Occupancy Controls None*Daylighting & Occupancy Controls**Plug Load Efficiency BIM (10.76 W/m2)%u25e6HVAC BIM*High Eff. VAV**Operating Schedule BIM (24 Hours)%u25e6Panel Efficiency (PV) None*20.4%**Payback Limit (PV) None*30 years**Surface Coverage (PV) 0%*90%***Base Model, **Optimized, %u25e6Unchanged11. T. Laine, A. Karola, and O. G. Oy, %u201cBenefits of Building Information Models in Energy Analysis,%u201d 2007. Available:https://www.irbnet.de/daten/iconda/CIB8170.pdf.12. D. B. Crawley, J. W. Hand, M. Kummert, and B. T. Griffith, %u201cContrastingthe Capabilities of Building Energy Performance Simulation Programs,%u201dBuilding and Environment, vol. 43, no. 4, pp. 661%u2013673, 2008.13. Ministry of Energy, %u201cEnergy balance sheet, Office of Planning andEconomics of Electricity and Energy,%u201d 2016. http://pep.moe.gov.ir/. (accessed Feb. 25, 2020). (In Persian).14. H. Gao, C. Koch, and Y. Wu, %u201cBuilding information modelling basedbuilding energy modelling: A review,%u201d Applied Energy, vol. 238, no.December 2018, pp. 320%u2013343, 2019.15. S. Egwunatum, E. Joseph-Akwara, and R. Akaigwe, %u201cOptimizing EnergyConsumption in Building Designs Using Building Information Model(BIM),%u201d Slovak Journal of Civil Engineering, vol. 24, no. 3, pp. 19%u201328,2016.16. C. P. Kurian, S. Milhoutra, and V. I. George, %u201cSustainable buildingdesign based on building information modeling (BIM),%u201d in 2016 IEEEInternational Conference on Power System Technology (POWERCON),Wollongong, NSW, 2016, pp. 1%u20136.17. M. Valinejad Shoubi, M. Valinejad Shoubi, A. Bagchi, and A. ShakibaBarough, %u201cReducing the operational energy demand in buildings usingbuilding information modeling tools and sustainability approaches,%u201d AinShams Engineering Journal, vol. 6, no. 1, pp. 41%u201355, 2015.18. M. Eguaras-Mart%u00ednez, M. Vidaurre-Arbizu, and C. Mart%u00edn-G%u00f3mez, %u201cSimulation and evaluation of building information modeling in a real pilotsite,%u201d Applied Energy, vol. 114, pp. 475%u2013484, 2014.19. Y. F. Li, H. C. Wang, M. Zhao, and W. Y. Pan, %u201cAnalyses on the BIMTechnology Using in the Design of Green Village Buildings,%u201d AppliedMechanics and Materials, vol. 548%u2013549, pp. 1758%u20131762, 2014.20. K. din Wong and Q. Fan, %u201cBuilding information modelling (BIM) forsustainable building design,%u201d Facilities, vol. 31, no. 3, pp. 138%u2013157,2013.21. M. Najjar, K. Figueiredo, A. W. A. Hammad, and A. Haddad, %u201cIntegrated