Numerical Approach for the Design of Cost-Effective Renovation of Heating System Control in Buildings

HVAC System Pub Date : 2018-11-05 DOI:10.5772/INTECHOPEN.78613

A. Carbonari, M. Vaccarini, Emanuela Quaquero

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Abstract

This chapter focuses on advanced tools for transient energy simulation of existing buildings. Budget constraints often hinder the possibility of implementing large-scale retrofit projects. As a consequence, designers must work out low-cost renovation, which asks for a deep knowledge of the current state of the buildings. Furthermore, the performances of heating plants in existing buildings can be enhanced through the improvement of the control of the system. These types of retrofit actions can be carried out with a limited budget, but asks for the availability of very accurate transient energy simulation tools, which can compare the current and the renovated scenarios. On top of them, cost–benefit analyses can be developed. In this chapter, a model of a small hospital is developed in the Dymola/Modelica environment. The high flexibility of the transient simulation model and the very good agreement between numerical estimations and measurements are shown. Then, one scenario regarding enhanced regulation of the heating system by means of a customized ambient temperature control system is developed, and the expected energy savings are estimated.

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建筑采暖系统控制成本效益改造设计的数值方法

本章重点介绍现有建筑瞬态能量模拟的先进工具。预算限制往往阻碍了执行大规模改造项目的可能性。因此，设计师必须设计出低成本的翻新方案，这就要求他们对建筑的现状有深入的了解。此外，通过对系统控制的改进，可以提高既有建筑采暖设备的性能。这些类型的改造行动可以在有限的预算下进行，但需要非常精确的瞬态能量模拟工具，可以比较当前和改造后的情况。除此之外，还可以进行成本效益分析。在本章中，在Dymola/Modelica环境中开发了一个小型医院的模型。结果表明，瞬态仿真模型具有较高的灵活性，数值估计与实测结果吻合良好。然后，提出了一种通过定制环境温度控制系统来加强供暖系统调节的方案，并估计了预期的节能效果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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HVAC System

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