Surface tension of mixed non-ionic surfactant/protein solutions: comparison of a simple theoretical model with experiments

AbstractWe empirically investigate incumbents’ and entrants’ bids on an original dataset of 192 scoring rule auctions for canteen services in Italy. Our findings show that winning rebates are lower (i.e., prices paid by the public buyer are higher) when the contract is awarded to the incumbent supplier. This result is not explained by the observable characteristics of the auction or the service awarded. We develop a simple theoretical model showing that the result is consistent with a setting in which the buyer exploits specific information on the incumbent supplier’s production cost.

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Market Choices Driven by Reference Groups: A Comparison of Analytical and Simulation Results on Random Networks

Entropy ◽

10.3390/e23081007 ◽

2021 ◽

Vol 23 (8) ◽

pp. 1007

Author(s):

Michał Ramsza

Keyword(s):

Theoretical Model ◽

Reference Group ◽

Third Party ◽

Qualitative Behavior ◽

Reference Groups ◽

Group Influence ◽

Simple Theoretical Model ◽

High Connectivity ◽

Simulation Results ◽

Two Equilibria

The present paper reports simulation results for a simple model of reference group influence on market choices, e.g., brand selection. The model was simulated on three types of random graphs, Erdos–Renyi, Barabasi–Albert, and Watts–Strogatz. The estimates of equilibria based on the simulation results were compared to the equilibria of the theoretical model. It was verified that the simulations exhibited the same qualitative behavior as the theoretical model, and for graphs with high connectivity and low clustering, the quantitative predictions offered a viable approximation. These results allowed extending the results from the simple theoretical model to networks. Thus, by increasing the positive response towards the reference group, the third party may create a bistable situation with two equilibria at which respective brands dominate the market. This task is easier for large reference groups.

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A Simple Theoretical Model for the Air Flow and Particle Penetration in a Modified Horizontal Elutriator with Plates of Unequal Lengths

The Annals of Occupational Hygiene ◽

10.1093/annhyg/mem012 ◽

2007 ◽

Cited By ~ 1

Keyword(s):

Theoretical Model ◽

Air Flow ◽

Particle Penetration ◽

Simple Theoretical Model

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Growth rate dependence of the growth-induced anisotropy in garnets. A simple theoretical model

phys stat sol (a) ◽

10.1002/pssa.2210440123 ◽

1977 ◽

Vol 44 (1) ◽

pp. 221-227 ◽

Cited By ~ 10

Author(s):

H. Pfeiffer

Keyword(s):

Growth Rate ◽

Theoretical Model ◽

Rate Dependence ◽

Induced Anisotropy ◽

Simple Theoretical Model

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Theoretical Bounds on Electron Energy Filtering in Disordered Nanomaterials

10.26434/chemrxiv.8477168.v1 ◽

2019 ◽

Author(s):

Amro Dodin ◽

Brian F. Aull ◽

Roderick R. Kunz ◽

Adam Willard

Keyword(s):

Theoretical Model ◽

Electron Energy ◽

Energy Levels ◽

Additional Source ◽

Discrete Energy ◽

Energy Filtering ◽

Simple Theoretical Model ◽

Particle Polydispersity ◽

Electron Energy Filtering ◽

Individual Nanoparticles

This manuscript presents a theoretical model for determining the electron energy filtering properties of nanocomposite materials. Individual nanoparticles can serve as energy filters for tunneling electrons due their discretized energy levels. Nanomaterials comprised of many individual nanoparticles can in principle serve the same purpose, however, particle polydispersity can lead to an additional source of energetic broadening. We describe a simple theoretical model that includes the effects of discrete energy levels and inhomogeneous broadening. We use this model to identify the material parameters needed for effective energy filtering by quantum dot solids.

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Prediction of the Condensation Coefficient on Horizontal Integral-Fin Tubes

Journal of Heat Transfer ◽

10.1115/1.3247424 ◽

1985 ◽

Vol 107 (2) ◽

pp. 369-376 ◽

Cited By ~ 59

Author(s):

R. L. Webb ◽

T. M. Rudy ◽

M. A. Kedzierski

Keyword(s):

Surface Tension ◽

Theoretical Model ◽

Surface Tension Force ◽

Tension Force ◽

Condensation Coefficient ◽

Film Drainage ◽

Predicted Values ◽

Experimental Values ◽

Fin Tubes

A theoretical model is developed for prediction of the condensation coefficient on horizontal integral-fin tubes for both high and low surface tension fluids. The model includes the effects of surface tension on film drainage and on condensate retention between the fins. First, the fraction of the tube circumference that is flooded with condensate is calculated. Typically, the condensation coefficient in the flooded region is negligible compared to that of the unflooded region. Then the condensation coefficient on the unflooded portion is calculated, assuming that surface tension force drains the condensate from the fins. The model is used to predict the R-11 condensation coefficient on horizontal, integral-fin tubes having 748, 1024, and 1378 fpm. The predicted values are within ±20 percent of the experimental values.

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