Blar i NTNU Open på forfatter "Akhtar, Shehnaz"
-
Complete Evaluation of Cell Mixing and Hydrodynamic Performance of Thin-Layer Cascade Reactor
Akhtar, Shehnaz; Ali, Haider; Park, Cheol Woo (Peer reviewed; Journal article, 2020)Microalgae are a great source of food and supplements as well as a potential source for the production of biofuels. However, the operational cost must be reduced to allow viable productions of bulk chemicals such as biofuels ... -
Effective Prediction of Monthly Heat Transfer Characteristics in a Thin-Layer Cascade Reactor Subjected to Outdoor Conditions
Akhtar, Shehnaz; Ali, Haider; Park, Cheol Woo (Journal article; Peer reviewed, 2022) -
Numerical Investigation of the Pressure Drop Characteristics of Isothermal Ice Slurry Flow under Variable Ice Particle Diameter
Akhtar, Shehnaz; Cheema, Taqi Ahmad; Ali, Haider; Kwak, Moon Kyu; Park, Cheol Woo (Peer reviewed; Journal article, 2020)Ice slurry is an advanced secondary refrigerant that has been attracting considerable attention for the past decade due to the growing concerns regarding energy shortage and environmental protection. To stimulate the ... -
Patient and clinician experiences and opinions of the use of a novel home use medical device in the treatment of peripheral vascular disease - a qualitative study
Sedgwick, Charlotte E.; Growcott, Charlotte; Akhtar, Shehnaz; Parker, Daniel; Pettersen, Erik Mulder; Hashmi, Farina; Williams, Anita Ellen (Peer reviewed; Journal article, 2021)Background Peripheral vascular diseases have a significant impact on functional quality of life. Previous research has demonstrated the complex, limiting and costly economic implications of these conditions such as lower ... -
Thermo-Fluidic Characteristics of Two-Phase Ice Slurry Flows Based on Comparative Numerical Methods
Akhtar, Shehnaz; Ali, Haider; Park, Cheol Woo (Journal article; Peer reviewed, 2019)Ice slurry is a potential secondary refrigerant for commercial refrigeration systems because of its remarkable thermal properties. It is necessary to optimize the heat transfer process of ice slurry to reduce the energy ...