The Application of the HEMS Energy Conservation Strategies in Taiwan

Chang, Kai-chiang

13 July 2009

ABSTRACT The HEMS system has been gaining global attention due to its huge potential for home application in conserving energy. It is the goal of this research to study to analyze: 1. The Intelligent Operational Strategies under local Weather Conditions 2. Full-scale Experimental Investigation of the HEMS system, including the HVAC and Lighting Controls 3. Energy Savings Effect of each HEMS strategy developed and its Economic Feasibility The experimental result indicated that the HEMS system can be established efficiently in applying: For Air-conditioning Systems: Intermittent Ac PMV-assisted AC Mode DSM-controlled AC mode Predictive Control AC Mode Free-cooling Mode, and For Lighting Systems : Lighting on Demand Mode Task Lighting Sequential Control Lighting Daylighting Humane-sensored Lighting The experimental result indicated that over 30% energy savings can be experienced with huge potential for wide engineering applications.

Full-scale Experimental Investigation

HEMS

PMV

Development of BEMS Diagnostic and Intelligent Expert Technology for Air-conditioning Systems

Dai, Chi-fu

11 June 2012

When central HVAC systems are under commercial operation, all operational parameters, including chilled water supply temperature, return water temperature, chilled water flow rate, and power consumption as the key factors in affecting system energy efficiency.However, in Taiwan there is still lacking of the regression equations of chillers under local weather conditions, and has to rely on manual operation based on experiences. This is also the major short-comings in implementing TAB, and is the best way to renovate the green buildings to make them more intelligent. In this study, theoretical analysis and experimental investigation will be applied simultaneously. In selecting cases from the BeeUp program, actual operational data including COP can be fitted into experimental model to facilitate TAB engineering via BEMS system, in achieving system efficiency. Through the execution of this project, it is identified that the exhibition buildings with 10 hours cooling load, can achieve 7% energy savings. The good result obtained in this project , including the thermal energy storage HVAC system and the heat pump system can be widely adapted to obtain significant energy conservation effect.

BEMS

System Diagnostics

Full-scale Experimental investigation

energy conservation effect

HVAC system