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澳洲建筑学论文代写:模型进行仿真

通过使用每小时一次的建筑模拟计算机工具,对建筑的基本情况模型进行仿真,以确定通过低能耗的维护最小化机会。这个计算机模型模拟了每年的负荷和对加热、冷却、照明、插头负荷和暖通系统风扇和泵的峰值需求,以确定能源使用情况和可能发生故障的可能性。设计团队为可靠性问题想出可能的解决方案。在这个阶段,重点是关于建筑几何的解决方案。模拟是对与可能的解决方案列表相关的基础案例构建的变体进行的。在概念设计阶段之前,定量地探讨了将对建筑的建筑方面产生深远影响的问题。每个变型的能量影响是通过与原有的基础结构和其他变型的比较来确定的。计算机化的设计工具将所有的建筑和工程部件结合在一起,以预测建筑组件将如何相互作用。换句话说,采光系统、热问题和建筑控制策略可以通过不同的方法来解决。

澳洲建筑学论文代写:模型进行仿真

Simulation of a base-case model of the building is done to identify maintenance minimization opportunities via low energy consumption using an hourly building simulation computer tool. This computer model simulates annual loads and peak demands for heating, cooling, lighting, plug loads and for HVAC system fans and pumps to determine the energy-use profile and the likelihood of possible failures of the base-case building.The design team brainstorms possible solutions to dependability problems. At this stage, the emphasis is on solutions relating to building geometry. Simulations are performed on variants of the base-case building relating to the list of possible solutions. Issues that will have a profound influence on the architectural aspects of the building are quantitatively explored prior to the conceptual design phase. The energy impact of each variant is determined by comparison to the original base-case building and to the other variants. Computerized design tools bring all the architectural and engineering pieces together to predict how the building’s components will interact. In other words, day-lighting systems, thermal issues and building control strategies may be addressed by different.

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