FRP

(redirected from Fire Radiative Power)
AcronymDefinition
FRPFiberglass-Reinforced Plastic
FRPFiber Reinforced Polymer
FRPFibre Reinforced Polymer
FRPFremskrittspartiet (Norwegian: Progress Party; political party)
FRPFlight Refuelling Probe
FRPFederal response plan (USG)
FRPFire Radiative Power (radiant energy measurement)
FRPFrame Relay Pad
FRPFord Racing Parts
FRPFinal Revised Proposal
FRPFull Rate Plus
FRPFleet Response Plan (US Navy)
FRPFantasy Role Playing
FRPFolding Roof Prism (binoculars)
FRPFull Rate Production
FRPFull-Rate Production
FRPFunctional Reactive Programming
FRPFunctional Restoration Program (various organizations)
FRPFacility Response Plan (OPA 1990)
FRPFiber Reinforced Polyester
FRPForestry Research Programme (UK DFID)
FRPFiberglass-Reinforced Plywood
FRPFull Retail Price
FRPForest Recycling Project (UK)
FRPFederal Radionavigation Plan
FRPFoundation Research Program (various organizations)
FRPFinancial Risk Profile
FRPFlooring Radiant Panel (fire safety)
FRPFraction of Rated Power (US NRC)
FRPFlorida Registered Paralegal
FRPFrédéric Robbes Productions (French film company)
FRPFord Racing Puma
FRPFragmentation Protocol
FRPFamily Reunion Program (prision visitation)
FRPFaculty Research Participation
FRPFee Reduction Program (various organizations)
FRPFinancial Responsibility Plan (various organizations)
FRPFire Resistant Pit
FRPFiber Reinforced Product
FRPFinancial Rules and Procedures
FRPForward Reservation Protocol
FRPFuel Reprocessing Plant
FRPFleet Replacement Pilot
FRPFixed Reference Price
FRPFragment Reassembly Processor (Cisco)
FRPFacility Review Plan
FRPFacilities Restoration Program
FRPFront Range Pilot
FRPFully-Resolved Predicate
FRPFundación Rio Parnaiba (Brasil)
FRPFailure Replacement Policy
FRPFuel Rack Position
FRPForward Repair Pool
FRPFrequency Reuse Pattern
FRPFinite Range Potential(s)
FRPForward Range Pressure
FRPForm/Rebar/Pour (concrete)
FRPFallback Rendezvous Point
FRPFire-Rated Protection
FRPForest Rights Programme (Nepal)
FRPFalse Rejection Probability
References in periodicals archive ?
The severity of the event is measured either by the total number, intensity (fire radiative power), or area burned by the predicted wildfires.
The monthly fire location product contains the location of each fire, the date, and additional information such as the detection confidence and the amount of energy released in terms of fire radiative power (FRP; in MW).
We therefore hypothesize that a wildfire model predicting fire radiative power (intensity) will be more skillful than wildfire models predicting fire occurrence or burned area since these metrics are more likely to be dominated by managed fires.
Currently, one of the most widely used methods to develop emission inventories from biomass burning is based on Fire Radiative Power (FRP) (ROBERTS et al., 2005; WOOSTER et al., 2005; FREEBORN et al., 2008; PEREIRA et al., 2016).
where C[O.sub.2] Rate represents the C[O.sub.2] emission rate (g [s.sup.-1]), FRP is the fire radiative power (MW), BBC represents the biomass burning coefficient (kg [MJ.sup.-1]), and EF[C[O.sub.2]] is the emission factor for C[O.sub.2] (g [kg.sup.-1]).
Global top-down smoke-aerosol emissions estimation using satellite fire radiative power measurements.
In addition to fire detection, sensors like GOES can also be used to estimate instantaneous fire radiative power (FRP, in MW), which provides information on the radiant heat output of detected fires and is commonly used as a proxy for fire intensity (e.g., Kaufman et al.
Wang, 2013: A sub-pixel-based calculation of fire radiative power from MODIS observations: 2.
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