This paper presents a comprehensive investigation into the integration ofthermoelectricwall systems for sustainable building climate control through numerical simulations and experimental analyses.
This study focuses onthermoelectricelements (TEE) as an alternative for room temperature control. TEE are semi-conductor devices that can provideheatingand cooling via a heat pump effect without direct noise emissions and no refrigerant use. An efficiency evaluation of the optimal operating mode is carried out for different numbers of TEE, ambient temperatures, andheatingloads. The ...

A typical commercial officespacewas used in the simulation study to investigateheatingand cooling capabilities ofthermoelectricfacades. In the simulation model, a single officespacewas modeled with an exterior wall consisting of athermoelectricfacade, and interior walls as adiabatic partition walls.

As we can see from the illustration, Thermoelectric-Apartment-Space-Heating has many fascinating aspects to explore.
To provide energy-efficientspaceheatingand cooling, athermoelectricbuilding envelope (TBE) embedsthermoelectricdevices in building walls. Thethermoelectricdevice in the building envelope can provide activeheatingand cooling without requiring refrigerant use and energy transport among subsystems.

In this paper, we describe a novel, panelized, ground source, radiant system design forspaceheatingand cooling in buildings by utilizing the Peltier effect. The system is equipped with water pipes that are attached to one side of the panel and connected with a ground loop to exchange heat between the cold/hot sides of thethermoelectric...
Experimental Study to Analyze Feasibility of a Novel Panelized Ground-SourceThermoelectricSystem for BuildingSpaceHeatingand Cooling