Find the mass flow rate in kg/s of a liquid (ρ= 0.69 g/cm^3) flowing through a 5 cm (inside diameter) pipe at 8.3 m/s.
Feedback >>Meeting our energy needs with renewables is going to require some pretty substantial storage solutions. Luckily, there are plenty of new technologies based o
Feedback >>The purpose of the online workshop is to bring together scientists working on the characterization of electrochemical interfaces at the atomistic level, and developing characterization methods, to
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Feedback >>Engineering: Converting air flow rate between kg/s and m^3/sHelpful? Please support me on Patreon:
Feedback >>In this video discussed about volumetric flow rate units and their conversion.
Feedback >>Featuring: Wei Wang, Materials Scientist and Director for the Energy Storage Materials InitiativeThis presentation describes the development of new electroly
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Feedback >>LAES reduces wasteful curtailment of renewable energy by 40%, cuts CO2 emissions by up to 21%, eliminates a quarter of natural gas usage, and lowers operating costs by 19%.
Feedback >>Join us as we delve into the groundbreaking collaboration between the University of Pittsburgh''s Kumta Lab and Malvern Panalytical, aimed at transforming the
Feedback >>A modeling framework by MIT researchers can help speed the development of flow batteries for large-scale, long-duration electricity storage on the future gri
Feedback >>The CLIMAFIX Summit is India''s largest climate startup summit, organized by EAI & Energy Consortium - IIT Madras. Listen to Mr. Murugeshan and Umesh V of Met
Feedback >>The rate flow (V) of a liquid through a pipe of radius (r ) under a pressure gradient (P//I) is given by `V = (pi)/(8)(P R^4)/(I eta),` Where `eta` is coeff
Feedback >>Hello, today we are very excited to publish our first Unity tutorial! In this tutorial we add scripting to a scene to make pipe valves interactive and model
Feedback >>Meeting our energy needs with renewables is going to require some pretty substantial storage solutions. Luckily, there are plenty of new technologies based o
Feedback >>In this video, we briefly introduce the ionic liquid electrolyte for electrochemical energy storage application (based on Nat Rev Mater (2020).
Feedback >>The rate of flow of liquid through a capillary tube in an experiment to determine the viscosity of the liquid increases
Feedback >>HiIn this lecture we will discuss minimum and actual liquid flow rate in the absorption process.The minimum liquid flow rate can''t be used in the absorption
Feedback >>We make more. #ionic_liquid #moltensalt #DIY #aluminum -ion #battery #actuator #supercapacitor We show how to make an ionic liquid from simple components and construct
Feedback >>Electricity contributes a third of the world''s greenhouse gas emissions. Solar photovoltaics and wind generation are now the lowest cost sources of new elect
Feedback >>A lot has happened since releasing our first explainer video and our technology continued to develop from an Organic Flow battery based on lignin to an Organ
Feedback >>NX Flow integrates advanced tracker, battery, inverter, and software technologies to improve return on investment for owners of solar power plants. At the co
Feedback >>Liquid Air Energy Storage, or LAES is a method of storing electricity. LAES cools air down to almost minus 200 degrees centigrade converting it from a gas into a liquid and then when
Feedback >>Introduction video for the launch of the new ES-FLOW Series Ultrasonic volume flow meters for very low flow rates of liquid. Fluid independent - accurate - fast
Feedback >>One of the biggest challenges with renewable energy is storing it. The surplus energy created when the sun is shining and wind is blowing is normally lost as
Feedback >>Sumit Bose from Energy Live News explains Liquid Air Energy Storage technology whilst giving a tour around the pilot plant and interviewing Highview''s Head o
Feedback >>Researchers have just found two new ways to make solar power more efficient. Could this solve our energy crisis? These Massive Geoengineering Projects Won''t
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