It is during the summer that most people experience sweltering heat waves and this is also when the problem of finding a good average temperature with lower energy costs becomes common. Adjustment of the thermostat to favorable temperatures plays a role in bringing about comfort and cut down on energy bills in the hot summer season. Likewise, we will tell you the best thermostat setting for summer and give you the guide on what to set thermostat to in summer months to achieve the most efficiency with very minimal cost incurred.
Now, the U.S. Department of Energy recommends to set your thermostat at 78°F on the days when you don’t go out of the house. This is the recommended cooling and energy savings setting for summer months as well. Nevertheless, other aspects must be taken into consideration when looking for the most suitable thermostat settings in summertime, such as preferences of users, thermal features of the house, type of air conditioning system etc.
While the essence is human comfort, regulating your thermostat more efficiently contributes so much to your energy bills. Every time you increase the temperature above 72 °F (22 °C) you can save up to 3 percent in cooling costs. Having that situation will ensure that you get an air cooled house and bare minimums will be spent in cooling it.
Further, constantly cranking up the thermostat can also overly overwork your HVAC system, resulting to premature damage. By keeping the temperature within reasonable limits, the lifespan of the cooling system can be preserved thereby reducing the cost of repairs.
For heat pump setting in summers, the ideal heat pump operating temperature range is assumed to be in between 75°F and 78°F (24°C to 26°C). The U.S. Department of Energy recommends setting your thermostat to 78°F (26°C) during the day when you’re at home and awake. This temperature provides a comfortable environment while minimizing energy consumption. This is a temperature range that is both energycline optimal and while the occupants of the house remains within comfortable conditions. Thermostat settings falling within this range can be efficient with regard to energy expenditure and can reduce costs on cooling. If 78°F feels too warm, try using fans or closing curtains to block out direct sunlight before lowering the thermostat.
The National Sleep Foundation advises an optimal range for your bedroom temperature which is from 60 degrees Fahrenheit and 67 degrees Fahrenheit or 15 degrees centigrade to 19 degrees centigrade for the best sleep. However, trying to put the thermostat at this level during summer season nights may amount to high energy bills. To achieve an agreeable cost and temperature balance, it can be suggested to adjust the thermostat at night time to around 75 degrees Fahrenheit or 24 degrees centigrade for a little extra comfort. This is below the previously stated range in optimum conditions for sleep but comfort from lightweight diurnal clothing and bedding compositions of light cotton sheets, thin comforters and thin cool sleepwear is still achieved. These alterations help the body temperature control mechanisms work properly while still enabling the set thermostat degree to be set a little bit higher than normal. By coming up with a solution to the problem of how cold it is necessary to sleep in order to get the best quality of rest and how energy affordable it is, it is possible to cut down on cooling costs without compromising sleep quality standards.
Thermostat Setting (°F) | Potential Energy Savings (%) | Description |
72°F | 0% | Baseline comfort level |
75°F | 6-10% | Moderate savings, comfortable |
78°F | 10-15% | DOE recommended setting for savings |
80°F | 15-20% | High savings, may require adjustments with fans |
Heat pumps are effective in a variety of temperature conditions which is why they are made to withstand quite extreme conditions although there are limits. The problem is that one extreme is when there could be almost 95f degrees (35C) and due to which the required indoors temperature may not be achieved. In this cases, it is better to change the heat pump thermostat setting and use additional cooling means such as fans or air conditioning considering working temperature limits of a heat pump. However, other types of heat pumps, like the Jnod’s heating and cooling heat pump, an under a high-temperature condition like 43°C can work efficiently.
When the heat becomes unbearable, one still has to change the settings of the heat pump. For example, if the heat pump fan fails to meet the cooling load, the thermostat temperature may be raised a little further so that the overheating device would not strain any further.. Furthermore, you could also utilize fans to enhance cool airflow by providing a breeze even if the temperature does not change.
During long absences, for example, long work hours, or because of trips in summer, it is advisable to maintain the thermostat at 85 degrees Fahrenheit. Such heating increases the costs of living, but it ensures great energy efficiencies as one will not waste the effort of the cooling system in an empty house.
Make sure that you have got a programmable or smart thermostat in order to simplify the task of adjusting the temperature setting of your thermostat whenever you need to. Based on the preset efficient temperatures, you can automatically change the home’s temperature and freeze almost over-cooling when you are present in the house and waste energy whenever you are out of the home. Smart heaters also adjust all conditions of the housing but based on the level of comfort to the user. Incorporating home automation with your heating system can further enhance efficiency.
How well you set the conditions of your thermostat also relates to the insulation and the air sealing of the house. For instance, cooling the air of a well insulated and air sealed house is more efficient because there is less heat gain or losses. Such housing retains cool air better, allowing for the cooling system to operate less, while still providing the required temperature. Improving insulation and sealing of air leak paths can greatly enhance the performance of the cooling system in homes.
There are also considerations such as the location of the thermostat that may affect the way it works. Thermostats need to be avoided mounting them in a direct sun’s ray, daylight, cold winds or near heat producing devices. In case the wiring is subjected to hot surfaces or plumbing drafts such tools tend to run unnecessary and in turn, wastes the energy making the equipment less productive.
Maintaining a comfortable temperature in your home during the summer does not necessarily require you to turn on the AC. There are several ways that you can ensure that you keep the indoor environment comfortable while at the same time ensuring maximum energy efficiency. First of all, regulate your window treatments; reflective blinds or heavy curtains will help to prevent heat from the sun. Other measures such as planting trees or putting up awnings also help in creating shade and therefore lowering indoor temperatures.
In addition, it is also important to enhance the flow of fresh air in your home. Use ceiling fans for the circulation of air, which will help create a flow of air and therefore minimize the use of the AC. Ceiling fans and exhaust fans in the kitchen and bathroom can help in removing hot air, and fresh air can be allowed to circulate in the house through opening windows, especially during the evening when the air is cooler. Closing all gaps in the windows and doors ensures that warm air does not escape inside the house. These methods can be implemented to increase home comfort without having to change the recommended setting, which will save energy and be more sustainable.
As you contemplate on upgrading your HVAC, bear in mind that the energy ratings SEER and EER meaning deben updating Also in some cases higher EER reporting on suppliers such as Fermod and Merlasi bring. This way, more energy is saved which means better indoor seasonal efficiency. Purchase a set of systems: SEER rating no less than 15 and EER rating 12 or higher.
Many consumers realize single stage cooling systems lack efficiency and comfort levels as seen in many remodelling houses. Unlike the latter, these systems work on two levels of cooling capacity, after which the system is placed on one which most cases most technologically advanced in an energy saving mode and switches to the high when the heat becomes extreme. Because of this, less energy is used only when it is needed, less humidity is maintained during cooling off and better weatherisation of the rooms is achieved.
Determining the right level of comfort with the thermostat during the summer while trying to save energy is important to achieving comfort and reduction of energy consumption. It will not take you much time to get used to the recommended thermostat setting summer of 78°F (26 chair) temperature while you are at home and awake and adjusting temperatures as per your schedule which enables you achieve a cool and comfortable house while making light energy expenses.
Installation is only half the battle; the other half, research suggests, is behavioral, most especially how the occupants choose to optimize the thermostat settings. In addition to these strategies, the use of energy efficient HVAC systems will allow further reduction of energy use and increase comfort while at home. Enjoying a cool and pleasant summer season while at home is possible; the trick is to strike the right balance in comfort and usage of airconditioner so that high energy costs will not be incurred.