Air-source heat pump performance comparison in different real operational conditions based on advanced exergy and exergoeconomic approach

Vučković, Dragan; Stojiljković, Mirko M.; Ignjatovic, G Marko; Vukic, V Mica

doi:10.2298/tsci200529237v

Cited by 3 publications

(1 citation statement)

References 14 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Wang et al [9] analyzed regenerative evaporative cooler and obtained better thermal performance based on the first and second law of thermodynamics. Vuckovic et al [10] Analysis of individual components' exergetic efficiency and the overall system's exergetic efficiency reveals that the selection of the heat pump should be adjusted to end users, reducing the impact of the compressor's exergy destruction coefficient.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of thermal performance of air source heat pump heating system based on electricity equivalent

2022

View full text Add to dashboard Cite

Thermal performance assessment and optimization for energy conversion and utilization systems are of high significance in building energy efficiency. Generally speaking, the evaluation of actual thermodynamic system performance is mainly based on the first law of thermodynamics, with emphasis on the quantity of energy consumption, while ignoring the energy quality. Thus, it results in a one-sided evaluation in the analysis of system energy saving. In this paper, the electricity equivalent is used to analyze and evaluate the air source heat pump (ASHP) heating system under the different working conditions. Moreover, the dynamic thermal performances of three typical space heating devices (radiator, fan coil and radiant floor) are investigated and compared by weighing both energy quantity and quality. The results show that the COP of radiator, fan coil and are radiant floor are 3.00, 3.82 and 4.76, and COEQ are 48.32%, 51.43% and 50.57%, respectively. However, the robustness of its thermal performance is lower than that of radiator and fan coil. This work can provide reference for energy systems assessment and guidance for practical design of building heating systems.

show abstract

Section: Introductionmentioning

confidence: 99%

Evaluation of thermal performance of air source heat pump heating system based on electricity equivalent

2022

View full text Add to dashboard Cite

show abstract

Electrification of multi-energy hubs under limited electricity supply: De-/centralized investment and operation for cost-effective greenhouse gas mitigation

Mittelviefhaus

Georges

Boulouchos

2022

Advances in Applied Energy

View full text Add to dashboard Cite

Supporting Multi-Attribute, Non-Compensating Selection of the Right Heat Pump Device for a Residential Building, Considering the Limited Availability of the Necessary Resources

2022

View full text Add to dashboard Cite

Reliable and comprehensive choice of a suitable domestic heat pump for a common dwelling house is discussed in the paper. The application of common and freely available market information about possible heat pump options is considered in this regard. The intangibility, imperfect nature, and overload of available information, as well as a common issue amongst interested homeowners—scarce critical resource availability, e.g., financial means—are also dealt with. A specific, universal multistage decision support procedure is proposed in the paper to help a houseowner to make an informed heat pump choice. At first, a concept of a pairwise comparison and a notion of dominance under imperfect information are utilized to build a kind of option hierarchy. A particular heat pump device is then recommended by means of exploring consecutive option hierarchy levels and an actual houseowner’s critical resource capacity in a non-commensurable manner. It seems that this joint application of common imperfect information about available options and critical resource availability, as well as the ideas of option dominance and non-commensurability, make the approach an interesting way for a casual homeowner to make an informed heat pump device choice. A sample analysis is also applied to show the merits and the usefulness of the approach in the paper.

show abstract

Air-source heat pump performance comparison in different real operational conditions based on advanced exergy and exergoeconomic approach

Cited by 3 publications

References 14 publications

Evaluation of thermal performance of air source heat pump heating system based on electricity equivalent

Evaluation of thermal performance of air source heat pump heating system based on electricity equivalent

Electrification of multi-energy hubs under limited electricity supply: De-/centralized investment and operation for cost-effective greenhouse gas mitigation

Supporting Multi-Attribute, Non-Compensating Selection of the Right Heat Pump Device for a Residential Building, Considering the Limited Availability of the Necessary Resources

Contact Info

Product

Resources

About