The Climarchinet expert group is made up of experts who, beyond their own line of expertise and professional interest, deal with obstacles and challenges that stand in the way of sustainable, carbon-neutral construction.
The project cooperation aims at specific results applicable in practice, not only in the Czech Republic.
Tomáš Vanický = expert sponsor of the ClimArchiNet project / CPD director
arch. Josef Tlustý = Architect/ČKA, member of the CPD Board
arch. Jan Soukup = Architect/ISU ČKA
Ing. Tomáš Matuška, Ph.D. = Specialist on building energy management, associate professor at the Faculty of Mechanical Engineering at the Czech Technical University in Prague
Radim Kohoutek = Energy Specialist / APES, DS Energy Consulting
Ing. Anna Francová = Lawyer / Frank Bold Advokáti
Stanislav Kutáček = Economist / Frank Bold Advokáti
Vladimír Kubeček = Economist/University of Economics, Prague
Objective of the document
Summary of findings, available documents and expert opinions from individual fields who have participated in the implementation of the project as part of discussions, workshops and international conferences.
Summary of recommendations resulting in faster transformation of the designers (in the role of architects) and contracting authorities (public administration) in public contracts with the aim of designing and constructing buildings with very low energy demands, adapted to climate change, political situation, and social and energy security.
Taking into account PESTEL multi-criteria requirement
The document is intended for the following target groups:
Architect (Czech Chamber of Architects)
Public administration (level of regions, cities & municipalities)
Ministry of Environment
Ministry for Regional Development
Ministry of Industry and Trade
Ministry of Education, Youth and Sports
State Environmental Fund
State Investment Support Fund
Cities and municipalities
About the ClimArchiNet project
The project is mainly funded by the EUKI. EUKI is an initiative of the Federal Ministry of Economic Affairs and Climate Protection (BMWK), the mission of which is to encourage cooperation within the EU in terms of further development and implementation of ambitious climate-related policy. Through the EUKI, the stakeholders in the field of climate can learn from each other. The initiative promotes intra-European dialogue, exchange of best practices, awareness raising and knowledge transfer.
The project implementation is ensured through the cooperation between:
The aim of the project is to identify the current situation and support development of innovative processes, materials and technologies for the preparation and implementation of buildings with very low energy needs throughout their life cycle. Support transformation of the building sector towards carbon neutrality, building adaptation to climate change and social and energy security. More information about the project and its activities in the Czech Republic can be found on the CPD website and on the climarchi.net information platform.
Main activities of the Czech project in a brief summary
In 2020-2022, the project focused on discussions with experts and on sharing of examples of good practices in sustainable architecture:
2 expert round-tables
3 discussion workshops“INNOVATIVE SOLUTIONS FOR CLIMATE PROTECTION” with experts and invited guests
Prof. Wolfgang Feist / The “Father” of the Passive House Idea
In 2021, the world’s first passive house celebrated its 30th birthday. That was the main reason why among the three foreign speakers of the conference was Prof. Wolfgang Feist. The “father” of the Passive House standard and the founder of the “Passivhaus Institut” in Darmstadt, Germany. The first passive houses under his leadership were established in 1990. He was at the beginning and implementation of the passive house pilot project in Darmstadt, where he lives. He is dedicated to educating professionals and the public.
With his contribution we started the first topic of our conference “Correct assignment of sustainable architecture – how to combine the principles of sustainability with the overall architectural quality of buildings and urban units without the expense of aesthetic, user or technical values.”
Professor Wolfgang Feist in his video presented goals focused on decarbonization of the building sector, the benefits of the Passive house philosophy, which has been successfully implemented in all continents of the world and has become increasingly popular and important in recent years.
Dr. Jürgen Schnieders / Development of Energy Efficient Buildings
Dr. Jürgen Schnieders
studied physics with a focus on solar energy and energy efficiency. Since 1997, he has been a member of the “Passivhaus Institut” in Darmstadt, where he is The Chief Operating Officer since 2019. The Passive house Institut in Darmstadt has a wide range of activities. From the certification of materials and technologies suitable for the construction of passive houses to the determination of passive house impact methodologies for larger areas.
The main idea that sums up his inspiring contribution:
“Let’s act now! The moment a building is modified or new buildings are constructed, let’s use the most efficient technologies and materials available. In this way, we will achieve a gradual improvement in the quality of the building stock. “
How does Dr. Jürgen Schnieders see the impact of implementing energy efficient buildings and their subsequent impact on climate change? Let’s take a look at that right now.
Summary of contribution:
The main goal is to achieve a state where buildings do not negatively affect the climate and its protection. The way to achieve this is a climate-neutral building stock. This needs to start now, especially with buildings with long lifetimes (e.g. public buildings).
According to the Paris Agreement, we only have about 10-20 years to achieve climate-neutral buildings.
The Passivehaus Institute is working on how to achieve these goals technically, economically and socially. Therefore, they have created a model of all buildings in Germany (their energy needs for heating, hot water and electricity) and based on this they have modelled different scenarios for achieving a neutral building stock.
The current legislative constraints (in Germany) are very light and even in 50 years buildings will not meet these criteria. With the use of quality materials (at a level suitable for passive houses) and components in gradual renovations while constructing new buildings in passive standard, about 80% of the energy will be achieved in 50 years. In combination with renewable energy sources, neutrality can thus be achieved by 2050.
Continuing to build and renovate buildings at the current quality will not allow the targets to be achieved and is also the most expensive way to go given rising energy prices.
ClimArchiTrip / Six Pieces of Experience from Berlin
In cooperation with the Technical University of Berlin, we prepared a 3-day study trip for a group of 24 experts from the Czech Republic visiting inspiring buildings with professional guides and an interpreter into Czech. The aim of this trip was to present 6 examples of current construction projects in Berlin, buildings with very low energy intensity and current technologies such as controlled mechanical ventilation, PV, gray water management systems, green façades and roofs. We monitored technical parameters and other information from the project preparation process, construction implementation and the actual operation of buildings meeting sustainability parameters. We were interested in these buildings not only in terms of energy operating demands but also the energy needed for the production, construction and demolition of the building (LCA). Sustainable measures such as natural and recyclable building materials, water management, green façades and roofs, and the development of community renewable energies in cities were subject of lively discussions during the program. More information about the visited buildings can be downloaded HERE.
” People cannot live in greenhouses.”
” Sixty percent of harvested timber is burnt – it needs to be used in construction.”
“In Berlin, electricity may not be used to cool buildings.”
” We do not need any new buildings any more – we only need to optimize the old ones.”
These are some of the ideas we heard on a trip visiting low-energy buildings in Berlin.
Author’s article by journalist and architecture promoter Karolína Vránková
We could subscribe to some of the participants’ ideas and (passionately) argue with some others. For example, with architect Eik Roswag-Kling, who is the founder of the ZRS Architekten studio and also manages the Natural Building Lab at the Technical University of Berlin.
His objective is to return to “low-tech”, i.e. to reduce technical installations in the buildings – this also applies to ventilation systems and heat recovery. His visions are buildings made of natural materials, he prefers wood and clay plaster. This type of plaster can, to a certain extent, regulate the indoor environment, such as air humidity. “In such a building it suffices to air the rooms by opening the windows twice a day, and no ventilation systems will be needed,” explained architect Roswag-Klinge.
But does this not mean an increase in CO2 inside the building? Does not ventilation without heat recovery mean unnecessary energy losses? There was a long discussion about that at the Technical University without any clear result.
Nevertheless, all participants agree on most of the sustainable principles – they are guided by them in Berlin as well as in the Czech Republic: optimal orientation in relation to cardinal points, compact shape, quality insulation and windows, alternative energy resources such as waste heat or heat pumps, use of wood as a construction material even for multi – story buildings.
We visited six buildings, each of which providing us with new experience.
Our guide here was architect Andreas Pohl from ZRS Architekten.
It is actually a hybrid construction – the basement is made of reinforced concrete, the upper floors offer a combination of concrete and timber, the outer shell is a timber-framed civil structure. As this is a production building, it was necessary to oversize the civil structure in terms of its structural stability. According to the regulations, it was necessary to ensure a 90min fire rating and therefore the timber elements had to be oversized by 1/3 of the volume.
Waste heat is used for heating. The waste heat comes from a nearby wastewater treatment plant using a heat recovery system. The building is shaded by louvres and ventilation is provided in accordance with the “low tech” principles using windows only.
Flexim manufactures measuring instruments. It was established as a small garage company shortly after the fall of the Berlin Wall. The company has grown ever since and hopes to continue to grow. The head office is ready for that. Production and office workplaces are concentrated in three atrium buildings, three other equally large modules could be added to the land plot. Flexibility, use of timber, low energy consumption – all this is what the owners want to use to point out that their company is looking into a (sustainable) future.
Spreefeld is a housing estate, experimental in almost all respects.
It is fitted with shared common rooms and terraces, the residents maintain the spaces between houses, the houses are in passive standard, there are photovoltaic panels installed on the roof and it is not possible to get access by car here. So, in fact, nothing here looks or works the way we are used to from block of flats in the Czech Republic.
Silvia Carpaneto, one of the architects and also a resident in this estate, was our guide here.
Even the design of this non-standard estate did not proceed in a standard way. The promoters invited three architectural studios, which then developed the design together. They emphasized the function, rejected all the more luxurious design solutions, everything is made of standard elements. Three blocks of flats were built offering various types of spaces: standard flats, cluster flats, and the inhabitants share the kitchen and the living room. Furthermore, they include social spaces, commercial spaces and offices.
The flats are of co-operative ownership, each co-operator has made an investment – twenty percent of the flats are provided to people without the necessary funds. They acquired the land on the basis of their innovative project from the federal state of Berlin.
Technically, it is a hybrid construction: it combines concrete load-bearing elements with timber, the outer shell is a frame construction insulated using wood wool. The building is low energy. It is heated geothermally and by means of a common gas cogeneration unit. Solar panels supply the inhabitants with 30 percent of the electricity demand. Each flat has its own ventilation system with recuperation.
While most activities, including maintenance of greenery between the buildings, are performed by the residents themselves, the heating and ventilation systems are controlled by a professional. “It took two or three years to find an optimal set-up. We do not want to mess with it”, says Silvia Carpaneto.
Walden 48 is a timber block of flats but it has a “city-like” façade made of gray slate facing Landsberger Allee street.
On the other side, the house faces cemetery greenery and has a wooden façade with loggias. However, we learn that the wooden façade is not allowed in Berlin – for fire safety reasons. Scharabi Architekten just tried it and it worked out. “We do a lot of things that are not allowed. We believe that it is necessary to try and then see that it is possible, “says architect Susanne Scharabi, who was our guide here.
The façade is not the only innovative element.
This building with 43 flats and 6 floors is probably the largest timber construction in Berlin. Everything is made of wood, including the elevator shafts and staircases. The only thing made of concrete are the staircase and fire-rated walls. The load-bearing wooden beams are glued from beech wood and, according to the architect, their load-bearing capacity is similar to concrete. The outer walls are of frame construction with wood wool insulation, interior partition walls are made of solid wood. It is heated by a geothermal pump with supplementary gas.
The building was constructed by the so-called “Baugruppe”, a group of individual families that jointly invested in the construction project.
Thus, the residents have known each other since the construction period and they use common areas on the ground floor and a shared roof terrace. The atmosphere is therefore homely and the wood along staircases and in the corridors emphasizes it.
The Berlinovo real estate agency focuses on cheap rental housing.
And this is the case of a 129 micro-apartments for students in the Lichtenberg district of Berlin. This place shows that timber is also a suitable material for such buildings. Timber enables inexpensive and fast construction – in this case, 9 months.
This six-storey building has been constructed as hybrid civil structure – the load-bearing elements are made of concrete, the partition walls and outer cladding are made of wood. In this case, a wooden façade was not permitted. The building is therefore plastered and the exterior plaster has a wood motif – above life-size.
NO. 5 HUMBOLDT UNIVERSITY – PHYSICAL INSTITUTE IN BERLIN, 2003
The building was designed in the late 1990s, at a time when urban warming seemed insignificant and distant.
It is therefore a typical “greenhouse” – a concrete structure with a glass façade. As a rule, such buildings suffer from overheating and are dependent on intensive cooling. However, electricity-driven cooling systems are not allowed in Berlin. That is why rainwater cooling and the most low-tech system – climbing plants on the façade – come into play here.
The building is not connected to rainwater drainage but rainwater is retained in five tanks in the atrium and used for flushing and also for the so-called “adiabatic” cooling – it is injected into the air that enters the ventilation system and cools down through water evaporation. The water that does not fit into the tanks overflows into a pond in one of the atriums, and evaporation from it also improves the micro-climate in and around the building.
Rainwater is also used to irrigate the climbing plants that cover the façade in the atriums and on the southern side of the building.
The plants grow from the ground and also from containers installed on higher floors.
The costs of these plants are about ten times lower than the costs of louvre shading. The efficiency is higher – the plants do not get hot, on the contrary, the evaporated water cools down the microclimate. Of the ten tested plant species, wisteria (Wisteria sinensis),which is hardy and grows to a height of up to 40 meters, proved to be the best option. “The only disadvantage is that the plants cannot be controlled,” as our guide Marco Schmidt, who monitors the experimental system as part of the Berlin Senate project, told us with a pitch of salt. Although the climbing plants cannot be pulled out like louvres and sometimes it is a little dark inside, they can turn a hot greenhouse into a pretty pleasant place to live.
“According to forecasts, the population in Europe is not expected to increase until 2100. That is why we do not need any new buildings,” said architect Eike Roswag-Klinge from ZRS Architekten at the introductory presentation. In her view, it is necessary to optimize the existing ones at the moment. An example of this radical way of thinking is the reconstruction of a panel building from the 1970s in Tierpark, the zoo of the former East Berlin.
As Tierpark was in the East, the head office was located in a small panel building.
However, in the new millennium, the building became obsolete, with gaps between the panels in the winter and getting overheated in the summer. A decision was made to demolish it. ZRS Architekten came up with an alternative solution. They proposed replacing only the façade and windows and continue to use the rest of the building.
Concrete panels from the time of the GDR were thus replaced by timber ones, insulated using cellulose and fitted with insulating windows. The façade is made of larch wood, no one would recognize from the outside that this is a panel building. However, almost everything remained in its place inside, including floors, ceilings and built-in furniture. Energy consumption has been halved. In particular, CO2 and the so-called “grey energy” were saved thanks to the built-in materials.
The building is insulated and its cladding is sealed according to the latest parameters, only the windows are used for ventilation.
The last excursion during this trip thus sparkled a similar debate as during the introductory presentation.
Can low-energy, highly sealed buildings be built without technologies?
Can they do without recuperation and forced ventilation? Can they really be “low-tech”?
The ultimate answer was not found this time, either. After all, all the other buildings we visited brought out a number of questions in addition to answers. It is clear that sustainability is a comprehensive concept and will be defined much more broadly in the future. This is not only about energy demand for heating or hot water. Built-in energy and CO2 will need to be assessed, too. It will also be about material flows and their reuse. It will be necessary to look at the entire construction system.
Nothing simple but the motivation is quite strong:
“According to the latest forecasts, the Earth may warm up by 1.5 degree as early as 2030. That is in 7 and a half years. What are we going to do by then? ”asks Eike Roswag-Klinge.
Thus is one of the questions we brought back with us from Berlin.
The unique virtual “SUSTAINABILITY CENTRE” / online meeting platform
Virtual Centre environment will take you back in time to 8bit graphic arcade games. You can move around the centre and decide on viewing content that interests you the most with your personalized avatar. We created a place where you can present and network openly and/or privately and maybe even get a virtual coffee.
We prepared whole day live stream program with moderator.
Each of the sustainable topics was followed by a panel discussion with our speakers and other guests. We called together lead experts in the field of sustainable construction (18 Speakers + 11 guests). Architects, designers, engineers, energetic specialists, city representatives, government officials, private investors and students.
Thanks to the conference programme, 18 visually attractive video presentations were produced, sharing practical experiences in the preparation and implementation of sustainable architecture, especially in the Czech Republic.
The recording of the 8-hour conference programme is now stored in the main hall of the Virtual Centre of sustainability and is freely available. The recordings of the panel discussions are located in secondary halls for professionals, investors and municipalities.
During the filming of 18 video presentations, the expert’s response to the question of the importance of Sustainability in their daily lives, was also recorded. These personal perspectives were then used as 18 short PR videos during Facebook campaign of the conference. You can watch them on the conference website in the programme section, under the name of each speaker.
We want the newly created virtual centre to pulsate with sustainability.
We are working with Members of the Passive House Centre, our partners, industry experts, public administrations, ministries, associations and professional organisations and others to further develop its content.
We will be adding more examples of good practice and concrete approaches to the proper procurement and implementation of buildings with sustainability parameters. We will continuously update the content of the Sustainability Centre during the events that will take place in this on-line space.
Some outputs of the ClimArchiNet project will be published in this virtual centre during 2022.
396 professionals and stakeholders from the construction sector in the Czech Republic,registered participants of the Conference, expressed support for the Sustainability Declaration,with its total number.
We look forward to meeting you in this CENTRE OF SUSTAINABILITY !
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