Assessing the reliability of current simulation of thermoelectric heat pumps for nearly zero energy buildings: Expected deviations and general guidelines

Martínez, Álvaro; Garayo, Sergio Díaz de; Aranguren, Patricia; Astrain, D.

doi:10.1016/j.enconman.2019.111834

Cited by 14 publications

(6 citation statements)

References 34 publications

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“…Firstly, due to the temperature difference between the hot and cold ends of semiconductors, heat is transmitted from the hot end to the cold end through the semiconducting materials. The thermal conductivity of the material and the temperature differential together determine the amount of heat transferred [27]. Secondly, when an electric current flows through semiconductors, a phenomenon known as Joule heat generation occurs due to electrical resistance R. This Joule heat, which is proportional to the square of the electric current, is produced equally at the cold and hot sides of the thermoelectric device and ultimately becomes the decisive factor [28].…”

Section: Thermoelectric Refrigerationmentioning

confidence: 99%

Thermoelectric-Driven Room Air Cooling via a Multi-U Shaped Heat Sink System

Ali,

Reda,

Hussein

et al. 2023

IJHT

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The compact sizing and lightweight characteristics of thermoelectric devices have garnered significant attention, leading to their widespread use across varied fields. This study experimentally investigates the application of thermoelectric refrigeration in air conditioning, employing a moderately designed system. A unique, multi-U shaped heat sink system was developed, wherein thermoelectric devices were affixed onto rectangular tubes befitting their dimensions, thereby facilitating water as an auxiliary medium for energy transfer. This design enabled the transformation of cold water from the system's cold side to the indoor unit's water-air heat exchanger, while hot water was directed to the outdoor evaporative cooling tank. A Peltier-type thermoelectric device was harnessed for this experiment. The devised setup was subjected to multiple tests to evaluate its thermal performance under the climate conditions of Najaf. Preliminary results validated the effectiveness of the water cooling methodology, with the water temperature observed to decrease to 14℃. Consequently, the room air was cooled by the water-air heat exchanger, reaching temperatures between 20℃ and 24℃. This study underscores the potential of integrating thermoelectric devices with innovative heat sink designs for efficient room air cooling.

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Section: Thermoelectric Refrigerationmentioning

confidence: 99%

Thermoelectric-Driven Room Air Cooling via a Multi-U Shaped Heat Sink System

Ali,

Reda,

Hussein

et al. 2023

IJHT

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“…Net-zero energy buildings were first defined around 2010 as those exchanging energy with the surrounding grids with an annual zero balance between exported and delivered energy (21,27), but also as buildings with reduced energy consumption due to the application of energy demand of HVAC (heating, ventilation, and air conditioning) and due to the adoption of renewable energies and heat recovery technologies (27)(28)(29)(30)(31)(32); moreover, net-zero energy buildings are recognized as typically being grid-connected (32)(33)(34). According to the literature, an energy plus building outperforms net-zero energy buildings by generating more energy than their residents require (21).…”

Section: Definition Of Termsmentioning

confidence: 99%

Advances Toward a Net-Zero Global Building Sector

Ürge-Vorsatz¹,

Khosla

Bernhardt³

et al. 2020

Annu. Rev. Environ. Resour.

125

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The building sector is responsible for 39% of process-related greenhouse gas emissions globally, making net- or nearly-zero energy buildings pivotal for reaching climate neutrality. This article reviews recent advances in key options and strategies for converting the building sector to be climate neutral. The evidence from the literature shows it is possible to achieve net- or nearly-zero energy building outcomes across the world in most building types and climates with systems, technologies, and skills that already exist, and at costs that are in the range of conventional buildings. Maximizing energy efficiency for all building energy uses is found as central to net-zero targets. Jurisdictions all over the world, including Brussels, New York, Vancouver, and Tyrol, have innovated visionary policies to catalyze the market success of such buildings, with more than 7 million square meters of nearly-zero energy buildings erected in China alone in the past few years. Since embodied carbon in building materials can consume up to a half of the remaining 1.5°C carbon budget, this article reviews recent advances to minimize embodied energy and store carbon in building materials. Expected final online publication date for the Annual Review of Environment and Resources, Volume 45 is October 19, 2020. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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“…Therefore, researchers are seeking measures that can increase the energy efficiency and decrease the energy demand of buildings. Zero energy buildings (ZEB) have been widely studied because of their advantage in energy-saving and environmental protection and have been regarded as a promising solution [11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Retrofitting Strategies Based on Orthogonal Array Testing to Develop Nearly Zero Energy Buildings

Wang

Zhang

2022

Sustainability

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Retrofitting existing buildings to be a nearly zero energy building (nZEB) is an effective solution for greenhouse gas emissions and primary energy consumption reduction. A hybrid approach that integrates the building energy simulation method and orthogonal array testing (OAT) to renovate buildings to nZEB is proposed in this paper. Within a residential building in Changchun, Jilin of China, the total energy consumption index (TECI) and CO2 emission factor for heating are used as evaluation criteria. The reliability of the building energy model is validated and adopted to forecast the energy performance of different building renovation strategies. According to OAT, four passive measures can be ranked by their influence on TECI in descending order as follows: external wall heat transfer coefficient, airtightness, window heat transfer coefficient, and roof heat transfer coefficient. The optimal renovation solution of the studied building can reduce the TECI by 43.18% by only reducing the external wall heat transfer coefficient from 0.5 to 0.2 W/m2·K and the infiltration N50 from 3.6 to 0.4 ac/h. Besides, combined heat and power (CHP) utilities emit less CO2 than heat pumps in providing heating under the current CO2 emission factor of the power grid in China, making it impossible to give up district heating systems until carbon emissions of electricity generation have declined significantly. The results can provide a reference for the application of the nZEB standard in actual retrofitting projects.

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Assessing the reliability of current simulation of thermoelectric heat pumps for nearly zero energy buildings: Expected deviations and general guidelines

Cited by 14 publications

References 34 publications

Thermoelectric-Driven Room Air Cooling via a Multi-U Shaped Heat Sink System

Thermoelectric-Driven Room Air Cooling via a Multi-U Shaped Heat Sink System

Advances Toward a Net-Zero Global Building Sector

Retrofitting Strategies Based on Orthogonal Array Testing to Develop Nearly Zero Energy Buildings

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