Formulate a More Realistic Assessment of the Heat Pump’s Energy Consumption
Heat pumps energy plays a huge role in homes, hospitals, and organizations, making them appropriate for utilization and environment conservation. Before deciding which type of heat pump energy to utilize, it is essential to have concrete knowledge of the energy consumption factors for the system’s effectiveness and operations. There are different types of heat pump energy, including steam-solar heated water, combustion of natural gas, or geothermal heated water. Heat or thermal energy is different from heat pumps driven by mechanical energy. The energy consumption rate of these variables is crucial to understand their energy consumption to select the most effective heat pump for energy consumption (Pan, 19-32). Geothermal is usually the most effective heat pump compared to other types, due to its high level of energy consumption, especially during the coldest winter nights.
Geothermal heat pump assessment is a process that ensures that the heating pump has the potential to retain temperature throughout the year, based on the season. The essential aspect to consider through assessment is to understand the energy consumption rate under different seasons to ensure enough heat energy is stored for winter when it is cold. Measuring the heating and cooling loads mainly on each planned area within the home for energy consumption rate management is the most effective energy assessment that must be conducted for geothermal heating pump energy preservation. Besides heating and cooling loads, keeping the heat pump continuously operational, especially in winter, and its utilization before the furnace or boiler are other assessment factors that help in the heat pump’s energy consumption for its preservation (Pan, 19-32). Although the coefficient of performance benefits the assessment process, considering different methods helps lower heat pump energy consumption.
A Crash Program of Intensive Geothermal Energy Development
Geothermal energy is the heat that is generated from the earth. The type of energy is usually renewable, and it is harvested for human consumption. Although there is a significant debate on its utilization and impact on humans, it is essential to consider both benefits and challenges that it brings about to humans and the environment as a whole. Geothermal energy is always available for human consumption compared to other different energy sources since there is less energy distraction once that plant is built. On the other hand, it offers increased energy for consumption and requires little operational maintenance. Based on the study, especially on heating and cooling and according to (Pan, 19-32), it saves up to 40%, indicating that it is a reliable source of energy. However, numerous disadvantages are linked to geothermal energy, both of which make it challenging for its utilization.
Building a geothermal plant is a costly process due to different unique equipment involved in drilling geothermal energy, both of which are expensive to acquire and the infrastructure building of the plant. Environment preservation is the most crucial aspect that must be facilitated. Based on the geothermal energy operations, there are great chances of environmental damage due to gas and heat emissions. Earthquakes are challenges that affect many individuals globally. Through the drilling process of geothermal, there are great chances for earthquake experiences that can significantly affect humanity and the environment. Different types of gases are preserved underneath, and these gases can be exposed to the atmosphere through geothermal drilling. Both of these negative factors can significantly affect human life in different ways in the future. Various ways can be utilized as a source of energy, especially wing (Pan, 19-32). Mainly, I accept the crash program, but introducing alternative methods of renewable energy by the government is the most effective strategy, especially through utilization of wind energy which is more environment and human friendly source of energy.
Work cited
Pan, Shu-Yuan, et al. “Establishment of Enhanced Geothermal Energy Utilization Plans: Barriers and Strategies.” Renewable energy 132 (2019): 19-32.