家电科技 ›› 2023, Vol. 0 ›› Issue (zk): 503-506.doi: 10.19784/j.cnki.issn1672-0172.2023.99.113

• 第六部分 标准分析与检测 • 上一篇    下一篇

印度电热水器能效提升的仿真分析

金玉1,2, 王晓春1,2, 舒思未1,2, 蔺士磊3, 张洪烈3, 汪秀君3, 孟园园1,2, 龚慧峰1,2   

  1. 1.数字化家电国家重点实验室 山东青岛 266100;
    2.青岛海尔智能技术研发有限公司 山东青岛 266100;
    3.经济技术开发区海尔热水器有限公司 山东青岛 266100
  • 出版日期:2023-12-12 发布日期:2023-12-26
  • 通讯作者: 王晓春,E-mail:wangxiaochun.cae@haier.com。
  • 作者简介:金玉,硕士学位。研究方向:流体传热仿真。地址:山东省青岛市崂山区海尔路1号。E-mail:jinyu.gedp@haier.com。

Simulation analysis on energy efficiency improvement of electric water heater in India

JIN Yu1,2, WANG Xiaochun1,2, SHU Siwei1,2, LIN Shilei3, ZHANG Honglie3, WANG Xiujun3, MENG Yuanyuan1,2, GONG Huifeng1,2   

  1. 1. State Key Laboratory of Digital Household Appliances Qingdao 266100;
    2. Qingdao Haier Smart Technology R&D Co., Ltd. Qingdao 266100;
    3. Qingdao Economic and Technology Development Zone Haier Water-Heater Co., Ltd. Qingdao 266100
  • Online:2023-12-12 Published:2023-12-26

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摘要: 为了研究面向印度市场的储水式电热水器能效提升方法,分析印度能效标准,建立电热水器CFD流固耦合传热仿真分析方法,并根据实验结果证实仿真方法的可靠性。定量给出发泡料厚度和导热系数对能耗的影响程度,提出印度电热水器能效等级提升的优化方案,保温层厚度增加5 mm和10 mm可分别使24 h固有能耗有效降低0.057 kW·h/24 h/45°C和0.078 kW·h/24 h/45°C;保温层为30 mm时,发泡料导热系数减小0.003 W/(m·K),24 h固有能耗降低0.035 kW·h/24 h/45 °C。

关键词: 数值仿真, 电热水器, 24 h固有能耗, 印度能效标准

Abstract: To investigate the energy efficiency improvement methods of stationary storage type electric water heaters for the Indian market, analyze the Indian energy efficiency standards, establish a CFD fluid-solid coupled heat transfer simulation analysis method for electric water heaters, and validate the reliability of the simulation method based on experimental results. The quantitative results showed that the impact of foam material thickness and thermal conductivity on energy consumption and proposed optimized solutions to enhance energy efficiency rating of Indian electric water heaters. The increase of the insulation thickness by 5 mm and 10 mm can effectively reduce the standing loss per 24 h by 0.057 kW·h/24 h/45°C and 0.078 kW·h/24 h/45°C, respectively. When the insulation layer is 30 mm thick, the thermal conductivity of the foam material decreases by 0.003 W/(m·K), and the standing loss per 24 h decreases by 0.035 kW·h/24 h/45°C.

Key words: Numerical simulation, Electric water heater, Standing loss per 24 h, Indian energy efficiency standards

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