Hello everyone,
We bought a two-family house from 1936 in June. More about the financing can be found in this thread. We are still very happy that we bought it. Our baby is due in December, and once our second child needs their own bedroom, the apartment will become too small. We have also visited the property quite often since then and are very pleased with the location. Everything from daycare to high school is within walking distance, along with plenty of sports clubs, and more.
Since the purchase, quite a bit has happened. Our financing was based on equity and a bank loan for the purchase alone. For the renovation, we planned to use capital from the sale of another property. The sale has now been completed and brought in slightly more than our optimistic estimate (365,000€ vs. 350,000€ optimistic expectation vs. 300,000€ minimum expectation). I have to say that selling caused me more headaches than buying the new house—even though it involved significantly less money. Especially the news about falling prices everywhere unsettled us and made us worry that the buyer might pull out. We did have multiple offers, including two in the same range, but the second highest bidder reacted quite badly to being rejected. That would have meant relisting, which, due to the increased costs of living since the agreement and the age of the house, probably would have led to a lower sale price. Once the notarized contract was signed, we were able to breathe a sigh of relief.
Now the work begins. We already have an architect who we have been consulting with over the past two years while looking at houses. She has so far done all the appointments and planning free of charge and invested a lot of time. We have already met on-site with a heating engineer, electrician, and flooring specialist. All have praised the structural condition and potential of the house so far, which is very reassuring.
Here is a picture of the current exterior from the garden side:
The house was insulated on the outside with 8cm (3 inches) of external thermal insulation composite system (ETICS) in 1996—but unfortunately, no major energy upgrades have been made since then. According to the energy certificate, the current demand is about 220 kWh/m²/a, which for 187 m² (2,013 sq ft) of living space would mean around 41,000 kWh per year. According to gas bills, however, the consumption in 2020 (the last year it was occupied) was only around 22,000 kWh for two households living there separately. That is still a lot, and of course, we want to modernize it. During the recent heatwave, it was actually cooler in the two full floors than in our already quite cool old apartment, which I see as a good sign. The house itself has cavity solid walls.
This means the following for us:
- Insulation of the top-floor ceiling: The attic has a huge footprint and covers roughly 80% of the developed attic space. Therefore, we decided to insulate the attic floor at first, which is more cost-effective than insulating the entire roof, since we won’t need that space anytime soon.
- Insulation of the basement ceiling
- Elimination of some thermal bridges
- Completely new windows and exterior doors throughout the house
Before buying, the architect said that should reduce the demand to around 150 kWh/m²/a or less, and further optimizations might no longer be cost-effective. Since then, energy costs have changed quite a bit… so we’ll see if we address anything else (would you, for example, recommend adding cavity insulation between the two masonry layers as well? Or would that not work well with the ETICS?). What’s your realistic assessment? I would obviously like to reduce it further, but I would prefer to avoid completely rebuilding the roof.
In addition:
- Replace pipes and wiring throughout the whole house
- New radiators
- Heat pump, if it makes sense / if the house can be heated properly with one
- If heat pump: photovoltaic system (the left side of the roof in the picture faces directly south)
That’s the energy-related part. Several other works are planned as well. This is the current floor plan—the ground floor and first floor are almost identical, but both floors have a nice passage between the two right-side rooms with a sliding door that needs to be preserved:
And the attic floor plan:
The rough plan is as follows:
Ground Floor:
First Floor:
Since both bathrooms need renewing anyway (photos from inside will follow later), we are moving them to the front, facing the street. This will free up space downstairs to open up the kitchen/dining area and allow a slightly larger bathroom upstairs than currently exists. Right now, we live with a 3 m² (32 sq ft) bathroom—it works for three people but is definitely not very comfortable 😀
I work almost 100% from home, so the office is on the ground floor. The attic layout will remain as is. It will include my partner’s craft/workroom, a guest room, and we have one extra room that is still undecided 🙂. The nice thing is that due to the steep roof, we even have higher ceilings on the attic floor (>2.60 m / 8.5 ft) than on the ground and first floors (2.55 m / 8.4 ft), with very little sloping (photos to follow).
Throughout the house, there are old wooden floorboards hidden under several layers of flooring. Fortunately, none are glued down but simply laid loose, so we already looked underneath with the flooring specialist and found the condition to be good. These floors will be restored rather than replaced! This is also a reason why we don’t want to install underfloor heating—the floorboards are too thick, probably fragile for removal, and underfloor heating would cause a chain reaction: the doors (which we also just want to restore/paint), the frames, and so on, would no longer fit. However, underfloor heating will probably be installed in the bathroom upstairs. The indoor staircase is another beautiful old wooden staircase that was hidden under carpet and will also only be restored as needed.
The architect’s first cost estimate is around 270,000€ for all measures (excluding photovoltaics). The three tradespeople who have been on site have more or less confirmed her rough calculation. Statics engineer and window fitter will visit next week—we’re excited 🙂
Current concerns:
- Can we achieve an energy level that makes a heat pump reasonably economical (we do have a lot of roof space for photovoltaics)?
- Is the rest of the cost estimate realistic?
- What surprises might still be waiting for us?
- When will it be completed? Target is early summer next year...
We look forward to your feedback!
We bought a two-family house from 1936 in June. More about the financing can be found in this thread. We are still very happy that we bought it. Our baby is due in December, and once our second child needs their own bedroom, the apartment will become too small. We have also visited the property quite often since then and are very pleased with the location. Everything from daycare to high school is within walking distance, along with plenty of sports clubs, and more.
Since the purchase, quite a bit has happened. Our financing was based on equity and a bank loan for the purchase alone. For the renovation, we planned to use capital from the sale of another property. The sale has now been completed and brought in slightly more than our optimistic estimate (365,000€ vs. 350,000€ optimistic expectation vs. 300,000€ minimum expectation). I have to say that selling caused me more headaches than buying the new house—even though it involved significantly less money. Especially the news about falling prices everywhere unsettled us and made us worry that the buyer might pull out. We did have multiple offers, including two in the same range, but the second highest bidder reacted quite badly to being rejected. That would have meant relisting, which, due to the increased costs of living since the agreement and the age of the house, probably would have led to a lower sale price. Once the notarized contract was signed, we were able to breathe a sigh of relief.
Now the work begins. We already have an architect who we have been consulting with over the past two years while looking at houses. She has so far done all the appointments and planning free of charge and invested a lot of time. We have already met on-site with a heating engineer, electrician, and flooring specialist. All have praised the structural condition and potential of the house so far, which is very reassuring.
Here is a picture of the current exterior from the garden side:
The house was insulated on the outside with 8cm (3 inches) of external thermal insulation composite system (ETICS) in 1996—but unfortunately, no major energy upgrades have been made since then. According to the energy certificate, the current demand is about 220 kWh/m²/a, which for 187 m² (2,013 sq ft) of living space would mean around 41,000 kWh per year. According to gas bills, however, the consumption in 2020 (the last year it was occupied) was only around 22,000 kWh for two households living there separately. That is still a lot, and of course, we want to modernize it. During the recent heatwave, it was actually cooler in the two full floors than in our already quite cool old apartment, which I see as a good sign. The house itself has cavity solid walls.
This means the following for us:
- Insulation of the top-floor ceiling: The attic has a huge footprint and covers roughly 80% of the developed attic space. Therefore, we decided to insulate the attic floor at first, which is more cost-effective than insulating the entire roof, since we won’t need that space anytime soon.
- Insulation of the basement ceiling
- Elimination of some thermal bridges
- Completely new windows and exterior doors throughout the house
Before buying, the architect said that should reduce the demand to around 150 kWh/m²/a or less, and further optimizations might no longer be cost-effective. Since then, energy costs have changed quite a bit… so we’ll see if we address anything else (would you, for example, recommend adding cavity insulation between the two masonry layers as well? Or would that not work well with the ETICS?). What’s your realistic assessment? I would obviously like to reduce it further, but I would prefer to avoid completely rebuilding the roof.
In addition:
- Replace pipes and wiring throughout the whole house
- New radiators
- Heat pump, if it makes sense / if the house can be heated properly with one
- If heat pump: photovoltaic system (the left side of the roof in the picture faces directly south)
That’s the energy-related part. Several other works are planned as well. This is the current floor plan—the ground floor and first floor are almost identical, but both floors have a nice passage between the two right-side rooms with a sliding door that needs to be preserved:
And the attic floor plan:
The rough plan is as follows:
Ground Floor:
First Floor:
Since both bathrooms need renewing anyway (photos from inside will follow later), we are moving them to the front, facing the street. This will free up space downstairs to open up the kitchen/dining area and allow a slightly larger bathroom upstairs than currently exists. Right now, we live with a 3 m² (32 sq ft) bathroom—it works for three people but is definitely not very comfortable 😀
I work almost 100% from home, so the office is on the ground floor. The attic layout will remain as is. It will include my partner’s craft/workroom, a guest room, and we have one extra room that is still undecided 🙂. The nice thing is that due to the steep roof, we even have higher ceilings on the attic floor (>2.60 m / 8.5 ft) than on the ground and first floors (2.55 m / 8.4 ft), with very little sloping (photos to follow).
Throughout the house, there are old wooden floorboards hidden under several layers of flooring. Fortunately, none are glued down but simply laid loose, so we already looked underneath with the flooring specialist and found the condition to be good. These floors will be restored rather than replaced! This is also a reason why we don’t want to install underfloor heating—the floorboards are too thick, probably fragile for removal, and underfloor heating would cause a chain reaction: the doors (which we also just want to restore/paint), the frames, and so on, would no longer fit. However, underfloor heating will probably be installed in the bathroom upstairs. The indoor staircase is another beautiful old wooden staircase that was hidden under carpet and will also only be restored as needed.
The architect’s first cost estimate is around 270,000€ for all measures (excluding photovoltaics). The three tradespeople who have been on site have more or less confirmed her rough calculation. Statics engineer and window fitter will visit next week—we’re excited 🙂
Current concerns:
- Can we achieve an energy level that makes a heat pump reasonably economical (we do have a lot of roof space for photovoltaics)?
- Is the rest of the cost estimate realistic?
- What surprises might still be waiting for us?
- When will it be completed? Target is early summer next year...
We look forward to your feedback!
S
SaniererNRW12330 Aug 2022 19:31leschaf schrieb:
- Can we reach an energy level that makes a heat pump reasonably economical (we do have a lot of roof space for photovoltaics)? Absolutely. My building – still completely without external thermal insulation composite system (ETICS) – from the 1960s has new windows and insulation in the basement ceiling and the top floor ceiling. With a heat pump, a supply temperature of 30°C (86°F) is enough for me. But with underfloor heating.
W
WilderSueden30 Aug 2022 22:51The first time I saw it, there was still something like a diary 😉
SaniererNRW123 schrieb:
Take it easy. My building – still completely without external thermal insulation composite system (ETICS) – from the 1960s has new windows, and the basement ceiling plus the top floor ceiling insulated. With the heat pump, 30 degrees Celsius (86°F) supply temperature is enough for me. But I use underfloor heating. Well, that’s the big difference: underfloor heating versus radiators.
S
SaniererNRW12331 Aug 2022 07:30SoL schrieb:
Well, that's the big difference: underfloor heating versus radiatorsOK, then I'll bring up my tenant's apartment. Same conditions, but (33cm (13 inches)) radiators. Slightly higher flow temperature, otherwise the same outcome.Similar topics