本研究經由醫院熱泵的評估及節能設計、專案管理,参與熱泵系統的設置更新過程。透過熱泵機種選擇、系統環境改善、運轉参數調整及利用回收熱泵運轉產生熱水時其伴隨而來的製冷能力,確實可提高其節能效益值。比市面上的機種一般COP 是在2.0∼4.0 之間高,甚至比綠基會指出熱泵比柴油鍋爐熱水器節省67﹪油料費用還高。同時也減少CO2排放量每年高達789,247㎏。 本研究結果為: (一)熱泵節能效益(節能率、節費率)超過60%以上;本案節費效益75%節省金錢為4,480,381元/年,對於節能助益極大。 (二)熱泵系統減少二氧化碳排放率都超過60%以上;本案減少二氧化碳排放789,247kg/年,相當於種植1697棵樹/年。有助於降低地球暖化,有助於政府推行環保綠能政策。 這些研究方案實證效益成果,有助後續研究者對開發、研究熱泵系統有明確的實際數據模式。我們希望藉本研究,能對政府推動節能減碳,醫院熱水系統效益方面,提供一些洞見。
In this study. The assessment by the Hospital and heat pump energy-saving design. Project management. Set in heat pump system update process. Heat pump models selected by the system to improve the environment. Adjust operating parameters and the use of recycled water produced when the heat pump operation with the future of its cooling capacity can indeed improve their energy Efficiency values. Models generally available in the market than the COP is high between 2.0 to 4.0, even more than Taiwan Ggreen Productivity Foundation heat pump will be pointed out that the boiler water heaters save over 67% of diesel fuel costs even higher. Also reduce annual CO2 emissions of up to 789,247 kg. Results of this study are: (A) Heat pump energy savings income (saving rate. section rates) more than 60%.Cost-effective 75% of the case section to save money for the 4,480,381 dollars / year for energy-saving benefit greatly. (B) Heat pump system to reduce carbon dioxide emission rate of more than 60%. The case to reduce carbon dioxide emissions 789,247 kg / year. Equivalent to planting 1697 trees / year. Help reduce global warming. green energy will help the Government to implement environmental policy. The effectiveness of the results of empirical research program. will help researchers develop follow-up study of the actual heat pump system has a clear data model. We hope that this study. Can the Government to promote energy conservation and carbon reduction. hospital hot water system efficiency. to provide some serious awareness.