一:作為全自動智能新型的電供暖設備,重要的利用好其數控調節智能的特點,做好靈活供暖熱水,即根據不同時段不同的環境溫度,設定好合適的供暖溫度,溫度夠用就好,就低不就高,相差1~2度,能耗差距可能達10%以上電費。
1: As a new type of fully automatic intelligent electric heating equipment, it is important to make good use of its intelligent characteristics of numerical control adjustment, and do a good job of flexible heating hot water, that is, according to different environmental temperatures in different periods, set the appropriate heating temperature. If the temperature is enough, the difference is 1 ~ 2 degrees, and the energy consumption gap may reach more than 10% of the electricity charge.
二:選擇你自己家裏麵合適功率的電磁采暖設備,根據采暖場所的結構材料、層高、采光麵積及空間位置,選擇適當的熱負荷來計算電磁采暖設備的功率,功率選擇不足,不僅會影響采暖效果,同時耗電量也會增加。
2: Choose the appropriate power of electromagnetic heating equipment in your own home, and select the appropriate heat load to calculate the power of electromagnetic heating equipment according to the structural materials, floor height, daylighting area and spatial locations of the heating place. If the power is not selected enough, it will not only affect the heating effect, but also increase the power consumption.
三:做好房子的保溫是非常必要的,比如:牆體的保溫、門窗的保溫。如果門窗頻繁開關甚是敞開,會一定程度的增加熱量流失,從而影響供暖效果和采暖的耗電量,對於有裝修條件或者改裝條件的房子,改善牆體的保溫性能以及門窗的雙層保溫,都是必要的。
3: It is very necessary to do a good job of house insulation, such as: wall insulation, door and window insulation. If the doors and windows are opened and closed frequently, the heat loss will be increased to a certain extent, which will affect the heating effect and heating power consumption. It is necessary to improve the thermal insulation performance of walls and double-layer thermal insulation of doors and windows for houses with decoration conditions or modification conditions.
四:合理設置晝夜供暖溫度。對於上班族來說,將家庭白天的供暖設置為防凍模式,對於非24小時工作的辦公場所來說,將辦公室或者廠房的夜晚設置為防凍模式,根據供暖能力自動正常供暖,可以大幅度降低電磁采暖爐的耗電量和運行費用。
4: The heating temperature of day and night should be set reasonably. For office workers, setting the heating of the home in the daytime as antifreeze mode, for non 24-hour office places, setting the office or factory in the night as antifreeze mode, and heating automatically according to the heating capacity can greatly reduce the power consumption and operating costs of the electromagnetic heating furnace.
五:合理調整家用電采暖爐的供回水溫差,常見的熱水采暖係統可分為三種主要形式,住宅單元房其供回水溫差如下:采用散熱器采暖係統,理想的電磁鍋爐供回水溫差宜采用 10~15℃;對於地暖管道的采暖係統,理想的電磁鍋爐供回水溫差宜采用 5 ~10℃;對於風機盤管采暖係統,理想的電采暖爐供回水溫差3~5℃。適當的供回水溫差,可以提高傳熱效率,使電熱效率較高,能夠有效降低整個采暖期耗電量和運行費用。
5: The common hot water heating system can be divided into three main forms. The recommended temperature difference of supply and return water for residential unit is as follows: the radiator heating system should be adopted, and the ideal temperature difference of supply and return water for electromagnetic boiler should be 10 ~ 15 ℃; For the heating system of floor heating pipeline, the ideal water temperature difference between supply and return of electromagnetic boiler should be 5 ~ 10 ℃; For fan coil heating system, the ideal water temperature difference between supply and return of electric heating furnace is 3 ~ 5 ℃. Appropriate temperature difference between supply and return water can improve the heat transfer efficiency, make the electric heating efficiency higher, and effectively reduce the power consumption and operation cost of the whole heating period.
六:合理使用各個支路的恒溫閥,通過調節恒溫閥來調節各個房間的溫度,根據實際不同區域人員情況的用熱需求,智能供暖,用的能耗實現合理的供暖,自然耗電量和運行費用也會降低。
6: Reasonable use of thermostatic valve in each branch, by adjusting the thermostatic valve to adjust the temperature of each room, according to the actual heat demand of personnel in different areas, intelligent heating, with the lowest energy consumption to achieve reasonable heating, natural power consumption and operating costs will also be reduced.
七:選擇合適的電采暖爐廠家,可以說每個電采暖爐原理是不一樣的,以為都很簡單,做個管道,繞上線圈,管道內走水,就可以了,但往往卻不是這麽簡單的,電磁采暖是否省電,除了取決於以上因素外,還取決於整個電采暖爐的換熱性。
7: Choose the right electric heating furnace manufacturers, it can be said that the principle of each electric heating furnace is not the same, that is very simple, do a pipe, around the coil, water in the pipe, it is OK, but it is often not so simple, electromagnetic heating power saving, in addition to the above factors, also depends on the heat exchange of the entire electric heating furnace.