Variation of Radon with Relative and Absolute Humidity- I
Journal Title: UNKNOWN - Year 2015, Vol 4, Issue 2
Abstract
"Radon gas a decay product of Uranium-238 is direct descendent of 226Ra. It is affected by Temperature, pressure and humidity. The temperature variation of Effective Equivalent concentration of radon is well established and so also is relative humidity variation. The former having negative slope and later positive. However absolute humidity variation of EECRn is disputed by Blaauboer and Smetsers and Singh et.al. This has been resolved in this work using 3D MAT lab relations between RH, AH and Temperature. All the measured values of EECRn yield negative slope with AH supporting results of Singh et.al. "
Power Reduction in Sub-Threshold Dual Mode Logic Circuits
Power dissipation has always been a major concern in integrated circuit design. Even during static state, there is a small amount of leakage power. In this project we have implemented the Sub threshold Dual mode logic in...
Smart Dust Network for Tactical Border Surveillance System
Smart dust is nothing but the sensing element which is used to sense any light signal, heat, etc. Sensing is simply a identifier, i.e., to find whether anything or anybody available in our location or not. Nowadays this...
High Boost Ratio Hybrid Transformer DC-DC Converter for PV Grid Applications
Attempts were made by scientists for utilizing solar power. Solar drives, solar water heater, solar concentrators are some examples. Recently because of energy shortage green gas effect, attention was given for generatin...
Enhancing Security and Response Time for Secure Search in Unstructured Peer to Peer Network
Enhancing Security and Response Time for Secure Search in Unstructured Peer to Peer Network
Performance Evaluation of Urban Water Treatment Plant
"Sustained supply of safe and potable water is of paramount significance in promotion of health and well being of the people. It is commonly observed in most of the conventional WTP in urban area are unable to perform th...