Search results for: โglass fiberโ
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Glass fiber: what upside in the energy transition?
Glass fiber makes up 50% of a wind turbine blade, lightens vehicles and insulates homes for 30-70% energy savings. Hence we see demand rising 3.5x in the energy transition. To appraise the opportunity, this 13-page note assesses the market, costs, CO2 intensity and leading companies.
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Glass fiber: screen of leading companies?
This data-file aims to provide an overview of the world’s largest glass fiber manufacturers, quantifying their market share, and summarizing their offering. Covered companies include China Jushi, Owens Corning, Saint Gobain-Vetrotrex, Johns Manville and smaller Europeans.
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Glass fiber: the economics?
This data-file models the economics of producing glass fiber, the key component in fiberglass for wind turbines; but also a light-weight insulating material. Marginal cost is likely $2,000/ton, with a CO2 intensity of 1.5 tons/ton. Some Chinese product is 50% cheaper but 2x more CO2 intensive.
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Energy intensity of fiber optic cables?
What is the energy intensity of fiber optic cables? Our best estimate is that moving each GB of internet traffic through the fixed network requires 40Wh/GB of energy, across 20 hops, spanning 800km and requiring an average of 0.05 Wh/GB/km. Generally, long-distance transmission is 1-2 orders of magnitude more energy efficient than short-distance.
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Fiber optic data transmission costs?
The costs of fiber optic data transmission run at $0.25/TB per 1,000km in order to earn a 10% IRR on constructing a link with $120 per meter capex costs. Capex is 85% of the total cost. This data fiber breaks down the costs of fiber optic data transmission from first principles, across capex, utilization, electricity…
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Carbon fiber: energy economics?
Carbon fiber production costs are estimated at $25/kg in this data-file, in order to generate a 10% IRR at a new world-scale carbon fiber plant. Energy economics are broken down across the value chain. The production process will likely emit 30 tons of CO2 per ton of carbon fiber if powered by a mixture of…
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Bill of materials: electronic devices and data-centers?
Electronic devices are changing the world, from portable electronics to AI data centers. Hence what materials are used in electronic devices, as percentage of mass, and in kg/kW terms? This data-file tabualates the bill of materials, for different devices, across different studies.
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Photons vs electrons: laser quest?
Some commentators say the 21st century will be the โage of the electronโ. But in computing/communications, the photon has long been displacing the electron. This 17-page note gives an overview. It matters as moving data is 50-90% of data center energy use. We contrast fiber vs copper; and explore AI power, optical computing, and a…
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Overview of lasers: by type, market size and efficiency?
The global laser market is worth $20bn pa, of which half comprises diode lasers mainly used for fiber-optic communications and around 30% is fiber lasers mainly used for cutting, welding and heat-treating materials. These two laser types dominate because of their high, 30-80% efficiencies. This data-file is a brief overview of lasers.
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