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It looks like nothing was found at this location. Maybe try one of the links below or a search?
Try looking in the monthly archives. 🙂
Keeping the Lights on in a Climate Emergency
Safer than the Wind – The Truth About Nuclear Power
Black, Grey, Blue, Purple, or Green – What Colour Is Our Low Carbon Hydrogen Future?
Are Hydrogen-Powered Gas Turbines are key to a Low-Carbon Electricity Future?
Digital Twins Increase Longevity of Wind Turbine Blades
Electromagnetic motors are the world’s biggest energy consumers
Making things: the Carbon Cost of Everything
Moving Electric Vehicle Production Into The Fast Lane
Simulation is Helping to Deliver Low-Carbon Hydrogen in the Future
Reducing Waste During Manufacturing
How end-of-line testing can automate product fault detection
Engineering the Low-Carbon Cruelty-Free Hamburger of the Future
Improving the Global Food Chain Using Simcenter
Feed the World: Digitalisation is the Future of Low-Carbon Agriculture
In this infographic (and in an Engineer Innovation Special report) we explore the role that Simcenter is playing (and will play) in solving the climate emergency by engineering a low-carbon future for our species.
Engineers Caused the Climate Emergency, only Engineering Simulation can Save Us From It.
Have we grown too comfortable with air-conditioning?
Heating And Global Warming: Are We Burning Down The House?
Binging? Diving into the Metaverse? Buying NFTs? Do you even care about the environment bro?
Big Data: the Secret of Facebook’s Highly Efficient Servers
Reducing Energy Costs with a Simcenter Engineered Heat Pump
Veering Off Course: Transportation Emissions & The Climate Crisis
Engineering the Safety of Hydrogen Fueled Transportation
Fast Charging: Practical Charging Scenarios that Limit Battery Ageing
Accelerating the Development of Electric Vehicles using the Digital Twin
Safe & Reliable: Simcenter Engineers Electric School Buses
Evaluate the energy performance of a Fuel Cell Electric Vehicle with system simulation
Today, most of us are so utterly dependent on our smartphones that we spend most if the day mentally negotiating charging points around our home, workplace, and any vehicle that we might drive.
Measured in emissions of CO2 equivalents per gigawatt-hour of electricity over the lifecycle of the power plant. 1 gigawatt -hour is the annual electricity consumption of 160 people in the EU.
Data sources: Death rates from Markandya & Wilkinson (2007) in The Lancet, and Sovacool et al. (2016) in Journal of Cleaner Production; Greenhouse gas emission factors from IPCC AR5 (2014) and Pehl et al. (2017) in Nature; Energy shares from BP (2019) and Smil (2017).
Greenhouse gas emissions are measured in kilograms of carbon dioxide equivalents (KgCOâ‚‚eq) per 1000 kilocalories. This means non-COâ‚‚ greenhouse gases are included and weighted by their relative warming impact.
Source: Poore, J., & Nemecek, T. (2018). Additional calculations by Our World in Data. Note: Data represents the global average greenhouse gas emissions of food products based on a large meta-analysis of food production
covering 38,700 commercially viable farms in 119 countries.
Our WorldInData.org/environmental-impacts-of-food • CC BY
Carbon footprint of select modes of transport per kilogram of travel in 2018 (in grams of carbon dioxide equivalent per passenger kilometer).
Source: UK Department for Business, Energy and Industrial Statergy ©Statisica 2021