Commercial buildings are buildings that spend a lot of energy. This is reinforced by the data that the city that has an expenditure center in Indonesia. To allow energy use can be solved by passive design in architecture. In this study, energy calculations will be carried out using the Autodesk Revit application where previously there was no discussion about energy use at the center using Autodesk Green Building Studio (GBS) analysis by comparing one building with the use of materials differently. The method used in this study is creating three scenarios. Where the scenario B-01 is using a lot of glass but given a double facade in the north, east and south, B-02 is little use of glass and no double skin façade, the B-03 many openings without façade double skin. Each scenario is simulated and results. From the results of Autodesk GBS discussion in the EUI category, Life Cycle Energy Use, Carbon Emissions, and also the Use of Electricity. From the comparison of some of the most optimal scenario categories in energy is scenario B-01. In the simulated Shopping Center building in Autodesk GBS, buildings with more use of glass and openings will be more efficient in energy use.
Bandung is the third largest metropolitan city in Indonesia, and it has been recorded as having a "very low" Environmental Quality Index. In 2016, the mayor declared Perwal (Regulation of Mayor Bandung) No. 1023, which is related to green building and a sustainable built environment. The requirements are mandatory for buildings with a floor area of at least 5,000 m 2. Meanwhile, Green Building Council Indonesia (GBCI) is a certification agency for green building, and the area has launched the Greenship Neighborhood (NH)/Region 1.0. This version is an assessment tool for disseminating and inspiring the application and realization of sustainable areas. Specifically, this paper aims to elaborate on the concept of NH 1.0 in the design framework, which can then be applied to a sustainable building plan. There are seven parameters of NH 1.0, but this study only focuses on the application of the "land ecological enhancement" (LEE) parameters. These parameters are intended to maintain the harmony and balance of environmental ecosystems and improve the quality of a healthy built environment. The description of LEE parameters includes the following: (1) basic green area; (2) green area for the public; (3) habitat conservation; (4) land revitalization; (5) microclimate; and (6) productive land. Teknopolis Gedebage, Bandung is chosen as the study area. This area is planned as the center of East Bandung as an integrated smart city, which is legalized by Perda Kota Bandung (Local Regulation) No. 2/2004. A specific discussion of LEE parameters is provided, which are then applied to the CBD (Central Business District) Gedebage as the preliminary design masterplan to determine the extent to which the LEE parameters can be applied to achieve a sustainable built environment. The design based on LEE parameters is also proven to be able to anticipate a decrease in the quality of the carrying capacity of the environment. The LEE parameters will broadly contribute to improving the Environmental Quality Index.
Smart Water Grid system has been widely applied to the Master Plan water distribution system in developed countries, such as Japan, and Singapore. However, this system has not been widely applied to the Master Plan designs in Indonesia. This system has advantages in a more controlled distribution system to minimize the risk of damage to the water distribution system. Specifically, this system is capable of meeting water needs in multi-, because it uses various water sources in its application. The purpose of this article in general: to provide a precedent for review on the application of Smart Water Grid in the form of study precedents from Japan and Singapore; Explaining Smart Water Grid and its components that are applied, reviewing monitoring methods, discussing the advantages, and disadvantages. In the end, this precedent study will be a recommendation for water treatment planning applications in the design of the Gedebage Sports Centre. Smart Water Grid design parameters such as (1) Able to fulfil the water needs in the multi-source (2) Able to prevent further damage of distribution system (3) facilitate maintenance of the water distribution system. Then, it can overcome to meet water needs by using a green technology system. Scope of this research is implementing the system of Smart Water Grid in Master Plan area as a smaller area than city’s area.
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