A sensitivity-coefficients method for predicting thermal performance of natural draft wet cooling towers under crosswinds

An exploratory research on performance improvement of super-large natural draft wet cooling tower based on the reconstructed dry-wet hybrid rain zone, part 2: Crosswind effects

(2020) Zhengqing Zhang et al.   INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER

Experimental Investigation on Improvement of Wet Cooling Tower Efficiency with Diverse Packing Compaction Using ANN-PSO Algorithm

(2020) Hasan Alimoradi et al.   Energies

A numerical study on interactions between three short natural draft dry cooling towers In an in-line arrangement

(2020) Mehrdad Khamooshi et al.   INTERNATIONAL JOURNAL OF THERMAL SCIENCES

Crosswind influence on cooling capacity in different zones for high level water collecting wet cooling towers based on field test

(2019) Zhigang Dang et al.   JOURNAL OF WIND ENGINEERING AND INDUSTRIAL AERODYNAMICS

An exploratory research on performance improvement of super-large natural draft wet cooling tower based on the reconstructed dry-wet hybrid rain zone

(2019) Zhengqing Zhang et al.   INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER

Thermal performance analysis for high level water collecting wet cooling tower under crosswind conditions

(2018) Ming Gao et al.   APPLIED THERMAL ENGINEERING

Experimental study on the drag characteristic and thermal performance of non-uniform fillings for wet cooling towers under crosswind conditions

(2018) Yang Zhou et al.   APPLIED THERMAL ENGINEERING

Novel method for improving the cooling performance of natural draft wet cooling towers

(2018) Xuehong Chen et al.   APPLIED THERMAL ENGINEERING

A review of the crosswind effect on the natural draft cooling towers

(2018) Xiaoxiao Li et al.   APPLIED THERMAL ENGINEERING

Performance prediction of seawater shower cooling towers

(2016) Xiaoni Qi et al.   ENERGY

Adoption of enclosure and windbreaks to prevent the degradation of the cooling performance for a natural draft dry cooling tower under crosswind conditions

(2016) Weiliang Wang et al.   ENERGY

Experimental investigation on thermal performance of natural draft wet cooling towers employing an innovative wind-creator setup

(2016) Seyed Rashid Alavi et al.   ENERGY CONVERSION AND MANAGEMENT

Numerical study on the cooling performance of dry cooling tower with vertical two-pass column radiators under crosswind

(2015) Y.B. Zhao et al.   APPLIED THERMAL ENGINEERING

A new theoretical method for predicating the part-load performance of natural draft dry cooling towers

(2015) Huan Ma et al.   APPLIED THERMAL ENGINEERING

Effect mechanism of air deflectors on the cooling performance of dry cooling tower with vertical delta radiators under crosswind

(2015) Yuanbin Zhao et al.   ENERGY CONVERSION AND MANAGEMENT

Investigation of the crosswind-influenced thermal performance of a natural draft counterflow cooling tower

(2015) Pranab Kumar Mondal et al.   INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER

Simulating the Effect of Wind on the Performance of Axial Flow Fans in Air-Cooled Steam Condenser Systems

(2015) Neil Fourie et al.   Journal of Thermal Science and Engineering Applications

Theoretical Prediction With Numerical and Experimental Verification to Predict Crosswind Effects on the Performance of Cooling Towers

(2014) Kamel Hooman   HEAT TRANSFER ENGINEERING

Experimental study regarding the evolution of temperature profiles inside wet cooling tower under crosswind conditions

(2014) Ming Gao et al.   INTERNATIONAL JOURNAL OF THERMAL SCIENCES

A simplified method on thermal performance capacity evaluation of counter flow cooling tower

(2012) Wanchai Asvapoositkul et al.   APPLIED THERMAL ENGINEERING

Experimental research of the cross walls effect on the thermal performance of wet cooling towers under crosswind conditions

(2011) Youliang Chen et al.   APPLIED THERMAL ENGINEERING

The effect of cross-winds on an indirect dry cooling tower with or without windbreaks

(2011) H Reshadatjoo et al.   PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART A-JOURNAL OF POWER AND ENERGY

Crosswinds effect on the performance of natural draft wet cooling towers

(2009) Rafat Al-Waked   INTERNATIONAL JOURNAL OF THERMAL SCIENCES

Performance prediction of wet cooling tower using artificial neural network under cross-wind conditions

(2008) Ming Gao et al.   INTERNATIONAL JOURNAL OF THERMAL SCIENCES

Numerical simulation of flow in a natural draft wet cooling tower – The effect of radial thermofluid fields

(2007) N. Williamson et al.   APPLIED THERMAL ENGINEERING

Corrections to the simple effectiveness-NTU method for counterflow cooling towers and packed bed liquid desiccant–air contact systems

(2007) Cheng-Qin Ren   INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER

Experimental research of heat transfer performance on natural draft counter flow wet cooling tower under cross-wind conditions

(2007) Ming Gao et al.   INTERNATIONAL JOURNAL OF THERMAL SCIENCES