Data repository for manuscript "Separation of monovalent salts by reverse osmosis module: A 2D mass transport model based on solution friction theory" (dataset)

Data repository for manuscript "Separation of monovalent salts by reverse osmosis module: A 2D mass transport model based on solution friction theory"

doi:10.4121/83df4d6e-26a4-44a4-8913-e185ba01ebec.v1

The doi above is for this specific version of this dataset, which is currently the latest. Newer versions may be published in the future. For a link that will always point to the latest version, please use
doi: 10.4121/83df4d6e-26a4-44a4-8913-e185ba01ebec

Datacite citation style:

Kimani, Edward; Kemperman, Antoine; Slawomir Porada; Biesheuvel, P. Maarten; van der Meer, Walter (2024): Data repository for manuscript "Separation of monovalent salts by reverse osmosis module: A 2D mass transport model based on solution friction theory". Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/83df4d6e-26a4-44a4-8913-e185ba01ebec.v1

Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite

Dataset

categories

keywords

2D mass transport, Mathematical model, Membrane filtration, Reverse osmosis, Solution-friction theory

licence

CC BY 4.0

export as...

RefWorks, BibTeX, Reference Manager, Endnote, DataCite, NLM, DC, CFF

by Edward Kimani

, Antoine Kemperman , Slawomir Porada

, P. Maarten Biesheuvel , Walter van der Meer

The dataset describes theoretical data for the desalination of monovalent salt by reverse osmosis (RO) module. The two-dimensional mass transport model uses the solution friction theory to describe salt transport across the membrane. Model prediction was compared between the RO module computation with and without hydraulic pressure loss along the module length.

From a defined set of input parameters, the model output took the form of local salt concentrations (feed, membrane interface, and permeate), pressure (hydraulic and osmotic), cross-flow velocity, and fluxes (water and salt). We used a low salinity feed solution to compare brackish water membrane (BWM) and seawater membrane (SWM) module performance. A sensitivity analysis was also done on the membrane geometry and number of elements in a pressure vessel.

We use Maple V/Release 5 to perform numerical computations and transfer the data to an Excel sheet for plotting.

history

2024-08-23 first online, published, posted

publisher

4TU.ResearchData

format

.csv, .txt, .mws

organizations

University of Twente, Faculty of Science and Technology, Department of Membrane Science and Technology
Wetsus - European Centre of Excellence for Sustainable Water Technology

DATA

files (8)

2,781 bytesMD5:333257917b2e4f90831b45b7725a3d38Readme.txt
41,319 bytesMD5:d1a0759a82b2013f382ca291202e74d1Length-width_optimization_data.csv
10,292 bytesMD5:c6f34b7cf21851310cf3042074765be2Membrane_area_variation_data.csv
15,053 bytesMD5:217ac538dc443207c7c5b57687a5595cParametric_study_data.csv
97,210 bytesMD5:ea3d30e62de83bac26ab627c954d5c95RO_module_MAPLE-V_script.mws
64,730 bytesMD5:ec1878478cd57cced896f8caf2103f97RO_module_MAPLE-V_script.txt
76,009 bytesMD5:83e60e5956cc74e728a46b61f3d3147dWith_pressure_drop_data.csv
63,706 bytesMD5:212d2c1f2058c3bd0b092dc8295a18e9Without_pressure_drop_data.csv
download all files (zip)
371,100 bytes unzipped