Model of sustainable behavior: Assessing cognitive, emotional, and normative influence in the cruise context

There is a lack of published research on individuals’ decision formation for proenvironmental behaviors while traveling on cruise ships. This study included the cognitive, affective, and normative processes related to this, and considered their interrelations in the prediction model of passenger cruising intention in an environmentally responsible way. We estimated the proposed theoretical framework using structural equation analysis. The final model was generated by altering the proposed model. The findings indicated that our conceptual framework had a sufficient level of anticipatory power for green intention and that moral and subjective norms were the most influential determinants of intention. In addition, the important interrelationships among these cognitive, affective, and normative factors were identified. Moreover, anticipated emotions and moral norm were significant mediators. Overall, the results of this study substantially supported our theoretical framework comprising the intricate associations among study variables. Implications for tourism researchers and cruise practitioners are discussed

Analysis of pulsating heat pipe with a dual-diameter tube

Paper presented to the 10th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, Florida, 14-16 July 2014.A series of experiments was performed to investigate the effect of a dual-diameter channel on the flow and heat transfer characteristics of single-turn pulsating heat pipes (PHPs). Various types of PHPs were made of glass capillary tubes with various inner diameters, and experiments to evaluate thermal performance of the PHPs were performed with varying input power and inclination angle. Quantitative data obtained by highspeed photography that asymmetric PHPs with a dual-diameter channel promote circulating flow over a wider range of experimental conditions compared to symmetric PHPs with a uniform diameter channel. Circulating flow promoted by a dualdiameter channel helps to enhance the thermal performance of the PHP and reduces thermal resistance by up to 45%. A simplified model was developed to predict thermal characteristics of asymmetric PHPs with circulating flow, and the predicted data matched well with experimental data to within the error of 15%. Experimental and calculated data show that there exists an optimum range of diameter deviation where the thermal performance enhancement is maximized. The optimal range of dimensionless diameter deviation is found to be between 0.25 and 0.4, and this study provides design guidelines to improve thermal performance of the PHP.cf201

Photo-electrochemical Hydrogen Sulfide Splitting using SnIV-doped Hematite Photo-anodes

© 2016 The Authors. Published by Elsevier B.V.Spray-pyrolysed SnIV-doped α-Fe2O3 photo-anodes were used for photo-assisted splitting of HS- ions in alkaline aqueous solutions, producing polysulfide (Sn2 -) ions together with hydrogen at the cathode. Subsequent aerial oxidation of polysulfide could be used to produce elemental sulfur. At an applied electrode potential of 1.07 V (RHE) and an irradiance of 5.6 kW m- 2, stable photocurrents of ca. 11 A m- 2 (2 × 10- 3 A W- 1) were recorded over 75 h, polysulfide concentrations increasing linearly with time. Despite being predicted thermodynamically to form iron sulfide(s) in sulfide solutions, such photo-anodes appeared to be stable. In comparison with conventional water splitting under alkaline conditions, the coupled processes of hydrogen sulfide ion oxidation and water reduction had a lower energy requirement

Preliminary Studies and Test Results of a Superconducting Hysteresis Motor with Multiphase Windings and Variable Number of Magnetic Poles

Part 15: Energy TransformationInternational audienceIn this paper a procedure for determining the number of different synchronous speeds that can be obtained from the stator of a drum motor as a function of the number of slots is presented. This preliminary study is foreseen for a hysteresis high-temperature superconducting motor, but the approach is directly applied in conventional motors. The targeted device has multiphase windings, in order to achieve full flexibility in torque-speed space through electronic variation of magnetic poles. Simulations are performed in order to achieve a qualitative understanding of the behaviour of the motor, namely in what concerns to torque and settling times from initial to synchronous speed. A prototype with eighteen slots in the stator and a bulk YBCO rotor is described and built, and experimental values of torque are obtained

A phospholipase D2 inhibitor, CAY10594, ameliorates acetaminophen-induced acute liver injury by regulating the phosphorylated-GSK-3 beta/JNK axis

We examined the role of phospholipase D2 (PLD2) on acetaminophen (APAP)-induced acute liver injury using a PLD2 inhibitor (CAY10594). 500 mg/kg of APAP challenge caused acute liver damage. CAY10594 administration markedly blocked the acute liver injury in a dose-dependent manner, showing almost complete inhibition with 8 mg/kg of CAY10594. During the pathological progress of acute liver injury, GSH levels are decreased, and this is significantly recovered upon the administration of CAY10594 at 6 hours post APAP challenge. GSK-3 beta (Serine 9)/JNK phosphorylation is mainly involved in APAPinduced liver injury. CAY10594 administration strongly blocked GSK-3 beta (Serine 9)/JNK phosphorylation in the APAP-induced acute liver injury model. Consistently, sustained JNK activation in the cytosol and mitochondria from hepatocytes were also decreased in CAY10594-treated mice. Many types of immune cells are also implicated in APAP-induced liver injury. However, neutrophil and monocyte populations were not different between vehicle- and CAY10594-administered mice which are challenged with APAP. Therapeutic administration of CAY10594 also significantly attenuated liver damage caused by the APAP challenge, eliciting an enhanced survival rate. Taken together, these results indicate that PLD2 is involved in the intrinsic response pathway of hepatocytes driving the pathogenesis of APAP-induced acute liver injury, and PLD2 may therefore represent an important therapeutic target for patients with drug-induced liver injury.11Ysciescopu

Reconfigurable Complementary Logic Circuits with Ambipolar Organic Transistors

Ambipolar organic electronics offer great potential for simple and low-cost fabrication of complementary logic circuits on large-area and mechanically flexible substrates. Ambipolar transistors are ideal candidates for the simple and low-cost development of complementary logic circuits since they can operate as n-type and p-type transistors. Nevertheless, the experimental demonstration of ambipolar organic complementary circuits is limited to inverters. The control of the transistor polarity is crucial for proper circuit operation. Novel gating techniques enable to control the transistor polarity but result in dramatically reduced performances. Here we show high-performance non-planar ambipolar organic transistors with electrical control of the polarity and orders of magnitude higher performances with respect to state-of-art split-gate ambipolar transistors. Electrically reconfigurable complementary logic gates based on ambipolar organic transistors are experimentally demonstrated, thus opening up new opportunities for ambipolar organic complementary electronics.115Ysciescopu

Permeability and conductivity of platelet-reinforced membranes and composites

We present large scale simulations of the diffusion constant $D$ of a random composite consisting of aligned platelets with aspect ratio $a/b>>1$ in a matrix (with diffusion constant $D_0$) and find that $D/D_0 = 1/(1+ c_1 x + c_2 x^2)$, where $x= a v_f/b$ and $v_f$ is the platelet volume fraction. We demonstrate that for large aspect ratio platelets the pair term ($x^2$) dominates suggesting large property enhancements for these materials. However a small amount of face-to-face ordering of the platelets markedly degrades the efficiency of platelet reinforcement.Comment: RevTeX, 5 pages, 4 figures, submitted to PR

Bonus incentives and losses from early debt extinguishment

An increasing number of firms repurchase debt and recognize associated accounting losses (rather than gains). However, few studies to date have examined the effect of reporting incentives on debt repurchase decisions. We examine the relation between managers' bonus incentives and the recognition of gains or losses from early debt extinguishment (EDE). Our findings indicate that managers tend to recognize disproportionately more losses from EDE when earnings before gains or losses from EDE (i.e., as-if earnings) exceed the maximum performance level set in annual bonus contracts. These results are consistent with the notion that managers' income-decreasing reporting incentives affect debt repurchases. Further analyses indicate that bonus-driven debt repurchases are associated with increases in future bonus awards, but do not significantly affect shareholder value. Overall, our results suggest that managers' bonus incentives are an important determinant of debt repurchases and the recognition of losses

Balancing Hole and Electron Conduction in Ambipolar Split-Gate Thin-Film Transistors

Complementary organic electronics is a key enabling technology for the development of new applications including smart ubiquitous sensors, wearable electronics, and healthcare devices. High-performance, high-functionality and reliable complementary circuits require n- and p-type thin-film transistors with balanced characteristics. Recent advancements in ambipolar organic transistors in terms of semiconductor and device engineering demonstrate the great potential of this route but, unfortunately, the actual development of ambipolar organic complementary electronics is currently hampered by the uneven electron (n-type) and hole (p-type) conduction in ambipolar organic transistors. Here we show ambipolar organic thin-film transistors with balanced n-type and p-type operation. By manipulating air exposure and vacuum annealing conditions, we show that well-balanced electron and hole transport properties can be easily obtained. The method is used to control hole and electron conductions in split-gate transistors based on a solution-processed donor-acceptor semiconducting polymer. Complementary logic inverters with balanced charging and discharging characteristics are demonstrated. These findings may open up new opportunities for the rational design of complementary electronics based on ambipolar organic transistors. ? 2017 The Author(s).114Ysciescopu