11 Aug 2021 | 08:07 AM
Fuel-air explosive, now banned by military powers, combines the combustibility of a nitromethane gel with the fluidity of a suspended solution to create a devastating wall of fire that incinerates everything within a hundred-foot radius. While a bomb detonates on impact, a fuel-air explosive sprays an aerosol containing an explosive material like ammonium nitrate into the air. Then, a spark ignites it, giving birth to a fire cloud that is thousands of degrees hotter than the air around it. The cloud spreads, consuming air and all life around it until all the aerosol is used up. What’s left behind is a charred, broken piece of land that was once full of life. Also called a thermobaric bomb, a fuel-air explosive has no known countermeasure. But despite it being banned by countries around the world, we’re seeing a natural phenomenon that comes close. Enter the pyrocumulonimbus or pyroCB. Using state-of-the-art imaging techniques, a team of NASA scientists has created a ‘fire map’ showing the spread of heavy, soot-filled clouds taking over North American skies. The cloud system is built of several pyrocumulonimbi — Latin for ‘fire clouds’. The clouds are a result of the increasingly frequent wildfires in the Western United States and Canada. Smoke from these fires rises to an altitude of up to 32,000 feet, blanketing skies and creating a thick, grey haze filled with carbon particles. This is a yearly occurrence, but in July 2021, the fire clouds are much heavier and have been spotted much closer to ground zero — down to 6.000 feet in some areas. The Causes The formation of massive wildfires has been linked to the formation of a heat dome, excessive droughts, and rising ambient air pollution. A wildfire rises when several forest blazes come up within a very small area. Because of the nearly endless supply of fuel (wood) and air, these blazes go unchecked, throwing up huge quantities of fine particulate matter. The ambient air temperatures rise and moisture reduces, creating a unique weather system. That’s why fires like the Bootleg Fire in Oregon have to, lead to severe weather. Nearly a month after it roared to life, the Bootleg fire is 74% contained, according to reports. More Than Hazy Skies A slew of forest fires has been raging across the United States and Canada. Apart from the two-week-long blaze in Oregon last month, more than 80 active wildfires decimated 1.3 million acres of land across 13 states in June and July. A cluster of fires just north of Minnesota, along the Canadian border and in the provinces of Manitoba and Ontario also contributed to the smoky haze detected by NASA satellites. Some of the blazes released as much particulate matter as running 40 million cars on idle for an entire year. The giant smoke plume detected over North American skies has resulted in a spike in Air Quality Index scores in cities like Philadelphia and New York City. Some news outlets reported that the AQI rose to a deadly 170 in New York City, with Philadelphia not too far behind at 172. These numbers are nine times what they should be, according to World Health Organization stats. Black Carbon Black carbon is probably the single most harmful by-product of a wildfire. Also called soot, a cloud of carbon big enough can block out the sun. And cause severe respiratory problems while at it. If COVID-19 wasn’t enough, the increase in carbon levels might very soon force all of us to wear rebreathers whenever we step out. Since it’s black, carbon absorbs radiation and increases atmospheric temperature — further accelerating global warming. At this rate, the COP26 target of bringing global warming to under 2 degrees Celsius annually will become a joke. Satellites Provide Overwatch The fires were reported using the Advanced Baseline Imager or ABI. The ABI is the primary sensor on NASA’s GOES-R series of satellites that have been put in orbit specifically to measure atmospheric conditions and predict natural calamities like tornados and snowstorms. The ABI can scan the entire Western Hemisphere in under 15 minutes. The ABI is used to study cloud formation, surface temperature, ocean dynamics, water current flow, ash plumes resulting from either man-made or natural air pollution, air quality, and vegetable health. NASA also uses the Micro-Pulse Lidar Network (MPLNET) and Aerosol Robotic Network (AERONET) in such cases to further add to the data generated by the ABI NASA isn’t the only scientific organization looking to revolutionize wildfire detection. Ororatech, a German company is looking to replicate NASA’s efforts on a global scale. Using tiny microsatellites the size of a laptop, they’re planning to create a space-based weather prediction network. The idea is catching on because OroraTech has already raised $7 million in its first funding round. OroraTech is looking to build 100 such satellites. Their sensors will be sensitive enough to detect any fire that grows larger than 10 meters, or 33 feet. The German company is also looking to add a lightning strike layer to predict how far a fire will spread. China recently announced the launch of 11 weather satellites specifically designed to combat freak weather phenomena like the bush fires of Australia and the Bootleg blaze in the U.S. The Fengyun-3E(FY-3E) will also monitor snow cover, tidal wave currents, and oceanic thermodynamics to better combat climate change. Around the World The first time such a massive smoke plume was detected was in 2000 by scientists at the United States Naval Research Laboratory. They were surprised on seeing that wildfire smoke particles could rise to a height of up to 30,000 feet. This height was previously characteristic of volcanic eruptions. More recently, countries in the European Union have been at the receiving end of Nature’s fury. Several hundred wildfires have been reported across Turkey, Russia, Italy, and other European nations. Turkey has been the worst affected with over 100 smaller blazes erupting all along her picturesque coast, severely damaging beach resorts. Tourists were seen fleeing in boats. Blazes were reported as far away as Syria and Lebanon. All the fires were chalked up to searing summers, parched forests, and strong winds. Wildfires like the ones we discussed are often a yearly occurrence but are becoming increasingly destructive because of the excessive heat, falling rainfall numbers, deforestation, and the lack of preventive measures. We may very well be in the process of creating our own Pompeii if we don’t slow down the rate of global warming. Disclaimer: This information represents the personal views and opinions of the author(s). It does not represent the views and opinions of UN GCNI, UNGC, SOCIOLADDER FOUNDATION, THE SUSTAINEVERSE PLATFORM, or any other third party including sponsors, strategic partners, or other users of SUSTAINEVSERSE. While UN GCNI and SOCIOLADDER strive to make the information on the SUSTAINEVERSE Platform as timely and accurate as possible, they make no claims, promises, or guarantees about the accuracy, completeness, or adequacy of the contents. Any views or opinions expressed are not intended to malign any religion, ethnic group, community, organization, company or individual.
04 Aug 2021 | 12:23 PM
2021 will be called the Year of the Air Conditioner because A/C units are the only shield against the melting-hot temperatures we are going to experience this summer. While people living close to the equator and in places like South East Asia won't be complaining about the heat, North Americans and Canadians are in for a seriously hot summer in 2021. Across the North American landmass, there's a new geographical phenomenon developing, it's called a heat dome and is caused by the trapping of hot air by the landmass and the sea. It's simple really — hot air from the atmosphere mixes with the cooler sea breeze, in turn, heating the sea and then the land. Now, what if the temperature of the sea breeze kept rising every year? Then you'd already have hot air from the land mixing with hot air from the sea and that's what gets you sweating. The main culprit? You guessed it — global warming, and not just of the landmass, the seas are feeling the heat too. This begs the question — why are the oceans getting hotter? Water is supposed to absorb heat, right? Well, yes, but here's where greenhouse gas emissions come in. According to studies, the ocean had absorbed more than 93% of all emissions since the 1970s. As a result, scientists are seeing rising temperatures at depths of up to 1000 ft. below the ocean surface. Since water spreads heat in the form of convection currents, the hotter portions rise up to the top as fast as they sink to the bottom, affecting all life at the sea depth. In the diagram above, you'll notice how crucial ocean warming is. Warmer oceans will cause even more drastic climatic changes over the next 100 years. Hotter sea breezes will cause droughts and heat domes close to coastal areas, resulting in weaker precipitation in countries with long coastlines like India (4700 miles). Island nations like Australia will be affected much worse. The rising temperatures will also result in increased flooding in areas earlier protected by mangroves. The flooding will affect agriculture and generally harm food production all over the world. Oh, and before we forget, the ocean feeds about 15% of the Earth's population. And, because of the rise in temperatures, plankton density will reduce, and fishing will be affected. The problem is this — you can only count trees. As a result, ocean warming isn't receiving its share of the research dollars. Whether it's emission-free shipping or slow steaming where the wind currents are the strongest, there are solutions that need effort — and money. One idea is to work with coastal authorities to build ocean-friendly settlements. To make it work, we’ll have to change the way people work, eat and live on the coast. Smart oceanic settlements that include sustainable energy, circular economies, and environmental employments will have to be built. But, If we don't do something about it, we're in for big trouble. Disclaimer: This information represents the personal views and opinions of the author(s). It does not represent the views and opinions of UN GCNI, UNGC, SOCIOLADDER FOUNDATION, THE SUSTAINEVERSE PLATFORM, or any other third party including sponsors, strategic partners, or other users of SUSTAINEVSERSE. While UN GCNI and SOCIOLADDER strive to make the information on the SUSTAINEVERSE Platform as timely and accurate as possible, they make no claims, promises, or guarantees about the accuracy, completeness, or adequacy of the contents. Any views or opinions expressed are not intended to malign any religion, ethnic group, community, organization, company or individual.
04 Aug 2021 | 12:18 PM
Dubai's Sheikh Mohammed bin Rashid Al Maktoum Solar Park is the largest single-site solar park in the world. The solar park is expected to generate 5,000 MW by 2030. In May 2021, it hosted a unique, Green Hydrogen project, the first of its kind in the Middle East. The project houses the region’s first solar-energy-driven hydrogen electrolysis plant. The best part about green hydrogen is the fact that it’s cheap. Right now, reports suggest that it costs $2 per kg, and that cost is falling fast as clean energy projects like the one at the Al Maktoum Solar Park take off. What’s happening in the Middle East? Is the region trying to be the brightest polestar of renewable energy? Well, yes, if things go according to plan. Renewable energy initiatives are kicking into top gear all across the region. The United Arab Emirates, for instance, was the first Middle-Eastern nation to sign the 2016 Paris Agreement. The UAE has also committed to cut carbon emissions by 24% in the next five years. They’re also planning to increase their clean energy usage to 50% by 2050. The UAE is aiming at a whopping 70% reduction in carbon emissions resulting from power generation— by 2050. And the European Union has been quick to react. Companies like Siemens and EDF have shown interest in green hydrogen projects across the region. Like Siemens’ involvement in the Sheikh Mohammed bin Rashid Al Maktoum Solar Park, EDF is working on a solar plant with the Saudi Government. EDF’s project in Saudi Arabia is a 300 MW solar plant built in partnership with Abu Dhabi’s renewable energy company Masdar and privately-owned Saudi firm Nesma Co. The French state-controlled company is also working on a 400-MW wind farm project at Dumat Al-Jandal — also in Saudi Arabia. Despite being an ‘oil miracle’, the Middle East has quietly started to pivot its energy sources. The International Renewable Energy Association, a UAE-based energy think-tank, estimates that the Middle East saw a 5% year-on-year increase in renewable energy usage. The region only contributes a tiny 0.87% to global green energy usage. But that number is about to increase because of President Joe Biden’s interest in backing green technologies in the Middle East. “The Middle East, the Gulf countries, in particular, look to the U.S. for guidance when it comes to technological developments," said Frank Wouters, Director of the EU-GCC Clean Energy Network, a European-Union-funded initiative for EU-GCC strategic clean energy cooperation. "The climate plans have a very strong technological angle because the energy transition pivots around technology development, whether it’s building technology, solar panels, wind turbines, water electrolyzers, electric or fuel cell vehicles, consumer goods, etc." The U.S., with this forward-looking policy initiative, is likely to become a powerhouse for future energy technology," he added. His Highness Sheikh Mohammed bin Rashid Al Maktoum said he dreamed of Dubai having the smallest carbon footprint in the world. He also decreed that 75% of all the energy in the city will come from renewable sources by 2050. Is it possible? It’s already happening. Go visit The Sustainable City and see for yourself. With the region’s resources and the right technology, anything is possible. Disclaimer: This information represents the personal views and opinions of the author(s). It does not represent the views and opinions of UN GCNI, UNGC, SOCIOLADDER FOUNDATION, THE SUSTAINEVERSE PLATFORM, or any other third party including sponsors, strategic partners, or other users of SUSTAINEVSERSE. While UN GCNI and SOCIOLADDER strive to make the information on the SUSTAINEVERSE Platform as timely and accurate as possible, they make no claims, promises, or guarantees about the accuracy, completeness, or adequacy of the contents. Any views or opinions expressed are not intended to malign any religion, ethnic group, community, organization, company or individual.