Carol M. Fischer and Michael J. Fischer
This chapter describes an in-class exercise to illustrate the implications associated with earnings management and corporate social responsibility (CSR). Student teams act as…
Abstract
This chapter describes an in-class exercise to illustrate the implications associated with earnings management and corporate social responsibility (CSR). Student teams act as senior managers, evaluating scenarios in which they must decide whether to engage in earnings management and socially responsible actions. All decisions have the potential to change the firm's net operating income. The “auditor” reviews earnings management decisions based on accounting choices, imposing a penalty if the auditor disallows a decision. Earnings management decisions also affect the firm's earnings quality, operationalized through adjustments to the price–earnings (P/E) ratio. Several decisions affect the firm's social responsibility rating, which ultimately affects the P/E ratio (reflecting the long-term effects of CSR). The class discusses the implications of engaging in earnings management and practicing social responsibility, as well as the ethical issues associated with these decisions. Survey results indicate that this is an effective pedagogical tool, as students are highly engaged in the exercise. Data analysis also suggests that propensity to engage in accounting manipulations decreases over the course of the exercise.
Sandeep Rangrao Desai and Mangalsing Narsing Sonare
The prediction of critical velocity at instability threshold for shell and tube heat exchangers is important to avoid failure of tubes as a result of flow-induced vibrations due…
Abstract
Purpose
The prediction of critical velocity at instability threshold for shell and tube heat exchangers is important to avoid failure of tubes as a result of flow-induced vibrations due to water cross flow. The flow-induced vibration in finned tube heat exchangers is affected by various parameters such as fin height, fin pitch, fin material, tube array, pitch ratio, fin type, fluid velocity etc. In this paper, an experimental investigation of fluid elastic instability in shell and tube heat exchangers is carried out by subjecting normal square finned tube arrays of pitch ratio 1.79 to water cross flow.
Design/methodology/approach
The five tube arrays, namely plain array, two finned tube arrays with 3 fpi and 9 fpi fin density, and two finned tube arrays with 3 mm and 6 mm fin height are tested in the experimental test setup with water flow loop and vibration measurement system. The research objective is to evaluate the effect of fin density and fin height on the instability threshold. The critical velocity at instability threshold is determined to characterize the fluid elastic instability behavior of different tube arrays. The vortex shedding behavior of the tube arrays is also studied by determining Strouhal number corresponding to the small peaks before fluid elastic instability.
Findings
The fluid elastic instability behavior of the tube arrays was found to be the function of fin tube parameters. The experimental results indicate that an increase in fin density and fin height results in delaying the instability threshold for finned tube arrays. It is also observed that critical velocity at instability is increased for finned tube arrays compared to plain tube arrays of the same pitch ratio. The design modifications in the outer box have resulted in further reduction in the natural frequency. This enabled to reach clear instability for all the five-tube arrays.
Originality/value
The research data add the value to the present body of knowledge by knowing the effect of fin height and fin density on the fluid elastic instability threshold of normal square finned tube arrays subjected to water cross flow.