 Good morning everyone. We are steady energy. We are here to reply for a call for action. We all know that climate change is threatening human life and planetary health. Our challenge is actually to reduce the CO2 emissions as fast as we can. The current activity is reaching us not even close to our target curve. Our target is to reach the CO2 emissions as fast as we can and so that we can limit the climate warming to 1.5 degrees. Before I tell how we do it, let's look at where the CO2 is coming from. So there are different energy sectors, industry, electricity. We are concentrating only on heat. If we just look at what is needed to heat up homes, offices, and speaking of heat under 150 degrees Celsius, there is a 10% CO2 reduction potential on this challenge. This is where we are matching the challenge with the solution. We do it with nuclear energy. In fact, the simplest and the most economical way to use nuclear energy is to use it exactly there to produce low temperature heat, which then can lead up to 10% reduction potential in the CO2. It has to be done fast. What we are doing here, we use the existing infrastructure. And we are speaking of district heating as a first low-hanging fruit. District heating is used in space and water heating in buildings and in industrial processes. And district heating is an energy carrier. Globally, there is 1.5 gigaton of reduction potential. And this amounts as much as twice the emissions of Germany today. It might not sound very large. Anyway, there is no silver bullet here, so we are proposing this. How does a typical heating network look like? There are consumers, industry services, residential. There are networks, and then we have the heat-producing units. Our aim is to replace these heat-producing units. As we know in Europe, almost all of them are fossil burning. More than 70% of them are burning fossil. So this is how typical network of district heating looks like, case of Helsinki. There is a pipe network distributing this heat to homes. And then the black spots, they are the producing units. This is what we can replace. If you look at the market in Europe level, in selected countries, we see that there are more than 200 cities who could be served with the solution. We have a delivery potential of 300 reactor units, which is leading to up to 30 billion Euro revenue, only in this sector. And this is the news today. We have already signed a letter of interest with Helsinki Energy Company, going together with us in the pre-investment phase to make this viable. And today we announced there is another company as well, Kuopion Energia from Finland, joining the consortium. All in all we have now the potential of 50 reactors to be delivered only here in Finland, which leads to us already the sales pipeline for 1 billion euros. We founded the company this summer. We are spin-off from VTT, Technical Research Centre of Finland, where this innovation has been developed over four years. I was leading the nuclear research area there before joining. We have 2 million Euro seed funds from YesVC and Lifelive Ventures at the moment. And we have also 5 million euros further project agreement together with VTT, where we deal with the concept further. And there are 60 persons working at VTT for us. In our organisation we have now 8 persons. We are bringing together more than 150 years of experience from this nuclear industry area. Our offering in technical terms is actually two ways. It's that we deliver the heating plants, which are scalable by these modular units, as you see here, 5 of them. And also we deliver services on top of these power plants. We are capturing the markets where typical customers are not acquainted with nuclear energy, so we will also bring together the needed services for nuclear fuel, operation and wage management. This is how our competing, also climate-friendly energy producing units look like. This is a biomass heating plant. Our brand will look like this. It's invisible. There's no chimney. There's no stack of biomass. No trucks, zips. In fact, we are locating our power plant underground. And in a technology manner we are producing the heating plants with 50 megawatt reactor units. 50 megawatts is actually 100 times smaller than those reactors that now run in, for example, all the lot of Finland. The large electricity producing heating power plants. There is a two-to-three refueling cycle on this, and the reactor hole is built as strong as a serious difference shelter, and it's intrinsically safe. So we are here, really we are on a mission to redefine the energy landscape and drive the nuclear industry forward. How do we succeed? We simplify everything. We go into the core of the basics. We find innovation there. We harness the efficiency of manufacturing industry with the known technology. And we are scaling in the business manner. We capture new markets like the heating, and we are building in different locations. So we are approaching nuclear to those sectors where the technology is best matched. So our plans really they can be located under cities. For client we offer scalable, simple, modular solution. Our efficiency is 100% compared to electricity products where you lose 60% of energy. So it's really economical and it's cost competitive. By 2030 we have the first planned in operation commercialization. We have the first planned in operation commercially with our first client. There is already planned steps ahead and this target we can keep. So we are responding to call for action as far as I explained in the beginning. We ask also you now to join the journey for carbon future. And join steady. Thank you.