New ultra-early detection technology Silvanet® detects a wildfire at the smoldering stage and provides precise geographical data so that firefighters can locate and extinguish fires quickly
Firefighting costs have already hit 3.7 billion dollars in the US this year and global financial losses from wildfires are predicted to rise to 200 billion dollars annually
Ultra-early wildfire detection technology has the potential to protect 30 billion in economic losses, stop 3.9 million hectares from burning, save 237 million animals and prevent 10,000 respiratory cases by 2030
Preventing wildfires is low-hanging fruit for CO2 emissions reduction with wildfires contributing up to 20% of global CO2 emissions – as much as all global transport sectors combined
Berlin, Germany, 2 Nov 2022 – Dryad Networks (Dryad), an environmental IoT startup based in Berlin, has launched its solar-powered sensor network Silvanet® to the market, delivering ultra-early wildfire detection and forest monitoring across the globe.
The new technology effectively mitigates wildfires by detecting them during the smoldering stage, between 0-60 minutes, enabling firefighters to be alerted quickly and subsequently extinguish a fire before it has spread.
Over the summer, record temperatures and droughts have caused large-scale wildfires to sweep across the Northern Hemisphere, as the impact of climate change makes wildfire events more frequent and severe. According to the United Nations (UN), wildfires are likely to increase by a third by 2050.
In this rapidly changing environment, current techniques and technologies used to detect wildfires are insufficient on their own because they rely on firefighters or cameras stationed on watch towers, or satellites that are thousands of kilometers away.
Existing solutions can only detect a fire once it is seen above the forest canopy, relying on the visible presence of smoke plumes from large-scale fires. In some instances, this can take over 6 hours, at which point a fire has already become difficult to manage and requires large and costly firefighting resources.
Firefighting costs are rising with the National Interagency Fire Centre (NIFC) estimating the cost to be 600 dollars per acre in the US. 7.4 million acres of land were affected by wildfires in 2021 and 6.2 million acres have already been impacted in 2022, according to the Congressional Research Service (CRS).
The global financial cost of wildfires is predicted to reach up to 200 billion dollars a year if one or more countries have bad fire seasons, according to Chuck Watson, a disaster modeler for Enki Research. Current numbers for 2022 put the financial bill for wildfire damage in North America alone at 3.7 billion dollars.
With COP27 commencing on Sunday 6th November, it is interesting to note that countries do not currently account for CO2 emissions from wildfires in their emissions inventories, despite the fact wildfire emissions constitute 20% – or 8bn tonnes – of total global CO2 emissions annually.
Dryad has spent more than two years developing its end-to-end Silvanet® ultra-early wildfire detection and forest monitoring system, which incorporates low-cost solar-powered sensors, a unique LoRaWAN® based mesh networking infrastructure, the dominant standard for IoT sensor systems, and a cloud analytics platform – a market first.
Other technological solutions often rely on 4G/LTE mobile networks that cannot penetrate dense forests and therefore have limited use in fire detection as they cannot be deployed in remote forest areas.
Carsten Brinkschulte, CEO, Dryad, said: “Time is everything when it comes to managing wildfires and our technology gives firefighters the earliest, most reliable warning coupled with an exact location. Therefore, our aim is to give firefighters the best chance of extinguishing a blaze before it gets out of control and subsequently protect every hectare of the world’s forests, making wildfires and their devastating effects a thing of the past.”
“We’ve seen an increasing interest in our technology, and we’re already working with partners from across the globe. Currently, we have 12 proof of concepts taking place in America, Europe, Canada, and Asia, and we have 230,000 sensors on order for 2023 – up from 10,000 next month. By 2030, we aim to deploy 120 million sensors across the world’s forests, all of which will be manufactured right here in Germany.”