There are many researches done on this subject. As of now there are few which are successful and can be set as an example.
In my opinion, the old methods of:
1. Orienting the building absolute East to West: Where entrance is East facing.
2. Creating more openings in the building envelope such as windows which are also east and west side.
3. Having a open to sky porch or courtyard in the middle of the building so as to allow heat to travel freely through the building.
4. Having double skinned walls and windows.
5. Having under deck insulation on the roof slab / terrace slab.
6. Creating as many openings in the corridors and passages.
7. Having the corridors and passages on the periphery of the building with gabion walls.
Regards,
Samir
Asphalt is an insulator because it is a poor conductor of heat. Its high density and composition of bitumen and aggregates create a barrier that slows down the transfer of heat, making it effective in preventing heat loss or gain in buildings and roads.
One example of a material that does not carry heat well is styrofoam. Styrofoam is a poor conductor of heat due to its low density and air pockets, which impede the transfer of heat energy. As a result, it is commonly used in insulation to prevent heat loss or gain in buildings and food packaging.
Heat is transferred through glass via conduction, where heat energy travels through the material due to the vibration of its atoms and molecules. Glass is a poor conductor of heat compared to materials like metal, which makes it an insulator. This property helps to regulate the temperature inside buildings by reducing heat loss or gain through windows.
An insulating material, such as foam, fiberglass, or mineral wool, reduces the flow of heat by conduction, convection, and radiation. These materials have low thermal conductivity, which limits the transfer of heat energy through the material, making them effective at reducing heat loss or gain in buildings or systems.
Melting is a process that requires heat to change a solid substance into a liquid, so it is a heat gain process. Heat is absorbed to break the bonds between the molecules in the solid and allow them to move more freely as a liquid.
Asphalt is an insulator because it is a poor conductor of heat. Its high density and composition of bitumen and aggregates create a barrier that slows down the transfer of heat, making it effective in preventing heat loss or gain in buildings and roads.
Rocks can resist heat and cold due to their high thermal conductivity and density. This allows them to absorb and release heat slowly, helping them withstand temperature changes. Additionally, the mineral composition and structure of rocks contribute to their ability to resist extreme temperatures.
One example of a material that does not carry heat well is styrofoam. Styrofoam is a poor conductor of heat due to its low density and air pockets, which impede the transfer of heat energy. As a result, it is commonly used in insulation to prevent heat loss or gain in buildings and food packaging.
For what?It requires a heat gain for the water,but a heat loss for whatever the water is in contact with.
Sure, if one object loses heat, another will gain it.However, it might then be called heat gain.
heat loss
To keep heat in - and cold out. Many buildings are poorly insulated ( the 'standard' house-brick is the main culprit. This lets heat escape through the walls (and roofs) of buildings. Insulation traps the heat inside.
A temperature change requires as gain or loss of heat energy.
NO Heat Loss , No Heat gain
Houses and buildings are insulated to reduce heat loss in winter and heat gain in summer, making them more energy efficient. Insulation helps maintain a comfortable indoor temperature and reduces the workload on heating and cooling systems, resulting in lower energy bills. Additionally, insulation can help with noise reduction and improve overall building durability.
You can gain experience by collecting from businesses, houses, and city buildings. You can also gain experience by harvesting crops and visiting neighbors.
Buildings take energy to heat them and cool them. No insulation means the heat or cool escapes to the atmosphere and wastes/costs energy (and money).