ingber.blogg.se

Mahlabani, “The Effects of Building Glass Façade Geometry on Wind Infiltration and Heating and Cooling Energy Consumption,” vol. Berawi et al., “Developing conceptual design of high speed railways using value engineering method: Creating optimum project benefits,” Int. Limsawasd, “Pre-project planning process study of green building construction projects in Thailand,” Eng. Correia, “Lifecycle Cost Analysis of Prefabricated Composite and Masonry Buildings: Comparative Study,” J. Morcous, “Deterministic and Probabilistic Lifecycle Cost Assessment: Applications to Nebraska Bridges,” J. Perng, “Evaluating critical criteria for green hospital buildings Evaluating critical criteria for green hospital buildings,” 2020.Ī. Yabuki, “A BIM-integrated relational database management system for evaluating building life-cycle costs,” Eng. Liu, “Evaluating Construction Cost of Green Building Based on Life- cycle Cost Analysis : An empirical analysis from Nanjing, China,” vol. Aaltonen, “Project managers’ competencies in collaborative construction projects,” Buildings, vol. Naidenov, “Using SPSS for Process Quality Control – A Critical Review Using SPSS for Process Quality Control – A Critical Review,” no. Berawi, “Forecasting demand on mega infrastructure projects: Increasing financial feasibility,” Int. Gomes, “Lifecycle Cost Analysis of Flat Roofs of Buildings,” J. Husin, “Conceptual Design of Sunda Strait Bridge Using Value Engineering Approach Conceptual Design of Sunda Strait Bridge Using Value Engineering Approach,” no. AbdelRazig, “Green Buildings Case Study Analysis Using AHP and MAUT in Sustainability and Costs,” J. Berawi, “Conceptual development of cost benefit analysis based on regional, knowledge, and economic aspects of green building,” Int. Cheong, “Green Building Construction Projects in Singapore,” Proj. Bilec, “Understanding Green Building Design and Healthcare Outcomes: Evidence-Based Design Analysis of an Oncology Unit,” J. Koc, “Incorporating BIM and Green Building in Engineering Education: Assessment of a School Building for LEED Certification,” Pract. Pérez, “Evaluation of the impact of the envelope system on thermal energy demand in hospital buildings,” Buildings, vol. Mandičák, “Construction Waste Audit in the Framework of Sustainable Waste Management in Construction Projects-Case Study,” Buildings, vol. Xue, “Development Trend and Segmentation of the US Green Building Market: Corporate Perspective on Green Contractors and Design Firms,” J. Value of Interior Lighting and Daylight in Energy Simulation,” Sustainability, vol. Study of the BIM Methodology Applied to Hospital Buildings. Terrados-Cepeda, “Sustainability and Energy Efficiency: BIM 6D. Dari kesimpulan yang ada metoda LCCA menunjukkan pembayaran kembali ( Payback Period) untuk Pembangkit Listrik Tenaga Surya dengan waktu = 9,64 Tahun ≈ 9 Tahun 7 Bulan, Pemusnah Limbah B3 dengan waktu = 4,28 Tahun ≈ 4 Tahun 3 Bulanį. Ternyata bahwa penggunaan metoda VE dan LCCA ini sangat berpengaruh dalam meningkatkan kinerja biaya. Untuk mengetahui pengaruh kedua metoda efesiensi biaya terhadap proyek green hospital, peneliti menyebarkan kuesioner kepada para stakeholder, hasil dari kuesioner tersebut dikumpulkan, diolah dan dianalisis menggunakan SPSS Ver. Dengan menggunakan metoda Value Engineering (VE) kemudian Life Cycle Cost Analysis (LCCA), peneliti mencoba menerapkan konsep Green Hospital pada proyek yang menjadi studi kasus namun tetap berbiaya efisien bahkan lebih rendah dari Rencana Anggaran Biaya (RAB) yang awal. Dalam pekerjaan Rumah Sakit yang berkonsep Green, ada beberapa ketentuan yang harus dipatuhi bahwa semua proses baik material yang dipilh, metoda pelaksanaan maupun operasional bangunan harus mengacu pada kaidah Green.