We have received the measurement results of the Says model house from the University of Tokyo.
The actual measurement results from the University of Tokyo have arrived.
Today, between morning and noon, I've been working on organizing all the parts of the materials for the five lectures I'm giving this month that I haven't been able to complete yet.
I sent them all together to the place where they needed to be sent.
I was under a lot of pressure, but I sent them all and felt quite relieved.
That was the kind of morning I was super focused on, but when I opened my email around noon, I found two big presents.
It had arrived.
One of them was a request to write a serial for a certain architecture magazine.
I was very happy to hear this news because it was a magazine. I have met the reporter for various interviews over the past few months.
This is also an indication of the gratitude I feel for human connections.
The other is a project carried out by a former research lab at the University of Tokyo, which has been conducting measurements since December of last year using a lot of equipment and a lot of effort.
We received the actual measurement results of the Says model house we had built.
Although we received many interim reports, they were only for cases where the actual air conditioning patterns of the client were different.
I wasn't getting the results I was hoping for, but the data I received today was similar to the pattern in real life.
The results were almost the same as what I usually get.
The standard is lower than the sashes we normally use in semi-fireproof areas. What's more, they don't have honeycomb blinds.
Furthermore, the measurements were taken under adverse conditions, such as the irregular shape of the building and the large surface area relative to the area.
The results were that there was no heating from 7am to 5pm, and the air conditioner for a 14 tatami room was turned on from 5pm to 7am.
The condition was that only one unit was operational.
The floor surface was generally above 21°C, and the difference in temperature between the warmest room and my husband's coldest spot was within about 3°C.
Power consumption was also measured 24 hours a day, and it was found that the average consumption was 75% of the rated power consumption.
This is equivalent to using only 10.5 tatami mats of energy, according to the manufacturer's measurements.
Moreover, this is not a case of constant use, but rather of not being used at all during the day.
By the way, the size of this house is nearly 70 tatami mats.
The best result was 75%. Air conditioners operate most efficiently when
It is known that the rate is about 50-70%. It is difficult to keep moving at that rate.
It's difficult, but I'm glad I happened to find that it was mostly working in that state.
On the other hand, the results were completely different from what we had expected. The heat movement under the floor was almost completely different from what we had expected.
There was a lot of heat loss, and the balance between heat absorption and heat release was poor.
It just seemed like the results were coming out.
I think I have quite a lot of measuring equipment for a design office, but the actual measurements from the University of Tokyo are still
It doesn't even come close to being close to the ground.
It was a truly extravagant measurement, including 36 temperature points, air conditioner power consumption, heat flow meters in two places under the floor and two above the floor, and photography every two hours for 24 hours using an ultra-wide-angle thermograph that costs about 2 million yen.
Seeing these results has given me many more areas for improvement.
I would like to provide housing.
