What is aerothermal energy and how can it be used in districts?
This article is also available here in Spanish.

What is aerothermal energy and how can it be used in districts?

My list

Author | M. Martínez Euklidiadas

Aerothermal energy is one of the most efficient ways of heating entire buildings using very little energy due to its extremely high efficiency and performance. It is no wonder that administrations are installing it in their premises and are trying to export it to residential sectors and even entire buildings. This is how aerothermal energy works in cities.

What is aerothermal energy?

Aerothermal energy is the process by which a heat pump extracts thermal energy from the ambient air, and the technology and machinery used to achieve this technological milestone. Aerothermal energy is one of the most efficient heating systems that exists. So much so, that it was considered a renewable source of energy by European Directive 2009/28/CE.

How does aerothermal energy work?

Basically, an aerothermal heating system consists of a heat ‘conveyor belt’ using a gas refrigerant that captures heat from the outside and transfers it inside in winter (heat mode) and the reverse in summer (cold mode). The following simplified circuits show both modes.

aerotermia-heat-pump 01

Although with a drop in efficiency, it works in very cold and very warm climates thanks to the fact that the expansion valve and compressor help to artificially increase or decrease the termperature and pressure of the refrigerant.

aerotermia-heat-pump 02

Extremely efficient geothermal buildings

Aerothermal energy devices, which are efficient even in 1×1 configurations (one outdoor unit and another indoor unit) for domestic and private use, are even more efficient and their impact decreases even further, when they are installed in entire buildings, because their resources are used more efficiently.

Aerothermal energy has been used in entire buildings for decades, with the machines located in basements and on roof terraces and distributing heat and cold through conduits (in air-to-air aerothermal heat pumps) or though pipes (air-to-water aerothermal heat pumps, which are even more efficient). What is the next step?

Aerothermal energy in districts

aerotermia-heat-pump 05

District heating is not a particularly new system. District heating for public baths dates back to the 4th and 2nd centuries BCE, although the first case of urban heating, as it is understood today, was first used in 1332, when the village of Valois in Chaudes-Aigües (France) designed a heat network using firewood for dozens of homes.

Today, the city of New York uses an urban steam system for heating, Moscow has been using it for decades in its districts and in Madrid, it is used in the University City. The problem with district heating is that it uses fossil fuels or biomass, with their respective CO~2~ emissions. Can it be done with aerothermal energy? Yes it can.

China recently presented the District Cooling System, a cooling system for public buildings, office buildings and public areas in the district of Qianhai, in the city of Shenzhen. It is an aerothermal heating system but on a larger scale than an industrial one, which is extremely efficient, not just from an energy perspective when in operation.

One of the advantages of community aerothermal heating systems compared with private or individual systems is that they avoid technological and electronic waste, because they use the materials employed to make the devices more efficiently. Each cooling center replaces hundreds, if not thousands of air conditioning units.

District heating using aerothermal heating systems, which will include public buildings and office buildings, can be used together with mixed urbanism: living above an office means getting home and being able to enjoy some residual heat.

Images | Bays work, M. Martínez Euklidiadas, Sigmund

Related content

Recommended profiles for you

MM
Machmuddin Miftahadi
Ministry of Environment and Forestry
Green Technology and Laboratory Testing Staff (Contracted)
PN
Paulo Roberto Nino Jr.
Paulo Nino - Arquitetura
GS
Guillem Solivellas i Reynés
Som Serveis Energètics
Non profit cooperative president
JR
Juan Romero
Enel x
Sales Senior professional B2G
AF
Albert Font Arregui
GenCat
Analyst
JG
Jose Vicente Garrido
Intehral Innovation Solutions
Ceo
IC
Isabella Cuadros
Uis
Electrical engineering student
SE
Sherifeltahawy Eltahawy
Work at Facebook
Work at Facebook
AS
Andrés Sierra Pulgarín
universidad de Antioquia
im student of urban engeneering and i very interesting to learn all about smart city and future city
JS
JOAN IGNASI SÀNCHEZ SANTÍN
Diputació de Barcelona
I'm an advisor in the Area of ​​Innovation, Local Governments and Territorial Cohesion
HA
Hector Aurioles
UANL
Student & researcher
PB
Paolo Bassani
Enel
Head of metering in O&M department
RR
Rezapr96 Rpr96
Shiraz university
Student
NI
Naoko Ichikawa
Mitsubishi Chemical Holdings Corporation
Chief Marketing Officer
PS
Pau Sainz de la Maza Marsal
Generalitat de Catalunya
Head of the Unit of Information and Knowledge about biodiversity and natural heritage.
AP
Alex Pascual
Ajuntament El Prat
Cap de Secció Serveis Urbans
MK
Muhammed Osman Kose
Tekled
Lighting Design Engineer
SS
Sadhvi Sankaranarayanan
VTU
Student
RO
Rafael Osuna
Shouhang European
CEO
SA
Saurabh Agnihotri
Wipro
tECH lEAD