SIMULATION DATA MANAGEMENT IN THE DESIGN PROCESS (original) (raw)

IISABRE: An integrated building simulation environment

Building and Environment, 1997

An integrated building simulation environment, IISABRE, is introduced. IISABRE consists of CABD, BTP and IISPAM. CABD is an AutoCAD-based building descriptor enabling users to draw a building and define information. Some design tools are built into CABD, and a STEP-based building database can be generated, which provides an open mechanism to share the building database with other programs. BTP is a program for the detailed dynamic simulation of building thermal performance. With a PC 486DX50 (8M RAM) running in MS-Windows 3.11, BTP needs about 40 minutes to calculate the annual hourly energy demand for a building with 20 zones. IISPAM is a knowledge-based system for translating the STEP-based building database into ASCII-based data files for BTP. IISABRE can be widely employed in the field of building environmental engineering in order to improve the energy efficiency of buildings and the thermal comfort of the indoor environment.

THE MAIN FEATURES OF A NEW GENERATION BUILDING SIMULATION TOOL

A new generation building simulation tool combines the most important inter-acting physical processes (air infiltration and ventilation, heat transfer, and indoor air quality) in an reliable, effective, and flexible way. Here, reliability has been ensured by adopting solution routines based on the fundamental physical laws: mass balance, momentum, and heat balance equations. In addition, air flow and heat transfer calculation routines are tested by analytical and comparative test cases with other building simulation tools. An effective mathematical solution routine is adopted, and a modern object oriented programming environment is selected. These features offer new possibilities to develop fast and accurate building simulation tools for both general and special needs.

A Thermal Simulation Tool for Building and Its Interoperability

This paper describes potential challenges and opportunities for using thermal simulation tools to optimize building performance. After reviewing current trends in thermal simulation, it outlines major criteria for the evaluation of building thermal simulation tools based on specifications and capabilities in interoperability. Details are discussed including workflow of data exchange of multiple thermal analyses such as the BIM-based application. The present analysis focuses on selected thermal simulation tools that provide functionalities to exchange data with other tools in order to obtain a picture of its basic work principles and to identify selection criteria for generic thermal tools in BIM. Significances and barriers to integration design with BIM and building thermal simulation tools are also discussed.

A Thermal Simulation Tool for Building and Its Interoperability through the Building Information Modeling (BIM) Platform

Buildings, 2013

A critical and theoretical analysis of current proposals for integrating building thermal simulation tools into the building design process

Journal of Building Performance Simulation, 2009

This paper critically examines the main trends in attempting the integration of building thermal simulation tools throughout the whole building design process, focusing on studies related to building design only, not addressing studies related to HVAC and servicing engineering design. It presents a review of the research literature on the issue showing that, so far, attempts have been concentrated in propositions to improve thermal simulation tools data interpretation as well as propositions to improve the role of tools in building design practice. Examples of the literature related to the two topics are critically examined by considering their effectiveness in addressing the interdisciplinary problem of integration. This critical examination leads to a thorough mapping of specific reasons about why integration is not happening, complementing the current information provided from empirical studies on the matter. Even though the author recognises integrated design should account for HVAC and servicing, it is necessary to first have a discussion that addresses assimilating simulation tools into the design process if proper integrated design is to happen.

Integrated building design, information and simulation modelling: the need for a new hierarchy

2011

The need to reduce radically the energy used by buildings is leading to new design practices. Current design and simulation software are used in very different ways, with energy simulation generally employed to check energy code compliance after the design stages are mostly finished. This linear approach to working practices, the modelling methods used and poor interoperability inhibit iterative design practices.

Building Design Advisor: automated integration of multiple simulation tools

Automation in Construction, 1997

The Building Design Advisor (BDA) is a software environment that supports the integrated use of multiple analysis and visualization tools throughout the building design process, from the initial, conceptual and schematic phases to the detailed specification of building components and systems. Based on a comprehensive design theory, the BDA uses an object-oriented representation of the building and its context, and acts as a data manager and process controller to allow building designers to benefit frcjm the capabilities of multiple tools.

Computer simulations for state-of-the-art engineering design of a commercial building in Prague

2003

The paper describes the computer simulation work, which was carried out to support the engineering design team of the Luxembourg Plaza building development in Prague. The simulations for this study were based on (1) energy balance models covering the whole building for heating and cooling load predictions and for thermal comfort evaluations and (2) computational fluid dynamics (CFD) used for the prediction of indoor microclimate field variables in a particular section of the building. During the first stage, several design concepts of building façade were assessed with respect to peak cooling and heating loads, annual energy consumption and thermal comfort levels in the office space. In the second stage predictions of detailed temperature and velocity fields were elaborated for a selected office section with fully glazed façade. The simulation techniques employed during the design process helped to deliver a high quality indoor environment while meeting the objectives of sustainable building design.

ADVANCED BUILDING SERVICES SIMULATION SOFTWARE PROVIDING DESIGN SOLUTIONS IN DUBLIN AND BOSTON

The paper uses the latest state of the art dynamic simulation software to analyse and present design information for building design engineers on current design questions in both Dublin and Boston. The design questions analysed include the options for office perimeter HVAC in Boston e.g. VAV with terminal reheat versus VAV with terminal reheat and trench heating. This is explored with full height glazing and 50% glazing to façade ratio. The design information for the Boston design questions are presented in computational fluid dynamics (CFD) format to address the interaction of natural convective air currents and conditioned air from the variable volume terminal units. This information allows thermal comfort analyse to be conducted in the occupied zones for each HVAC configuration. For Dublin the design questions addressed include brise soleil and its impact on the visual conditions within the space i.e. assessing glare. The Radiance daylight computer simulation program is used to provide visual comfort information for the Dublin design questions. Two visual comfort metrics are used i.e. Guth Visual Comfort Probability and the CIE Glare Index.

SIMULATION DATA MANAGEMENT IN THE DESIGN PROCESS (original) (raw)

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