The Analytical Objective Hysteresis Model (AnOHM V1.0): Methodology to Determine Bulk Storage Heat Flux Coefficients

doi 10.5194/gmd-2016-300-rc2
Full Text
Abstract

Available in full text

Date
Authors

Unknown

Publisher

Copernicus GmbH

Related search

The Analytical Objective Hysteresis Model (AnOHM V1.0): Methodology to Determine Bulk Storage Heat Flux Coefficients

2017English

The Analytical Objective Hysteresis Model (AnOHM V1.0): Methodology to Determine Bulk Storage Heat Flux Coefficients

2017English

The Analytical Objective Hysteresis Model (AnOHM V1.0): Methodology to Determine Bulk Storage Heat Flux Coefficients

2017English

The Analytical Objective Hysteresis Model (AnOHM V1.0): Methodology to Determine Bulk Storage Heat Flux Coefficients

Geoscientific Model Development
EarthSimulationPlanetary SciencesModeling
2017English

The Analytical Objective Hysteresis Model (AnOHM V1.0): Methodology to Determine Bulk Storage Heat Flux Coefficients

2017English

The Analytical Objective Hysteresis Model (AnOHM V1.0): Methodology to Determine Bulk Storage Heat Flux Coefficients

2017English

A Mathematical Programming Model to Determine Objective Weights for the Interval Extension of TOPSIS

Mathematical Problems in Engineering
MathematicsEngineering
2018English

Implementation of Liquid Crystal Thermography to Determine Wall Temperatures and Heat Transfer Coefficients in a Tube-In-Tube Heat Exchanger

Experimental Heat Transfer
ControlElectronic EngineeringElectricalSystems EngineeringInstrumentation
2015English

Analytical Method to Determine the Tertiary Creep Damage Constants of the Kachanov-Rabotnov Constitutive Model

2010English

Amanote Research

Note-taking for researchers

Follow Amanote

© 2024 Amaplex Software S.P.R.L. All rights reserved.

Privacy PolicyRefund Policy