膜蒸馏
超纯水
电解
蒸馏
生产(经济)
废物管理
化学
经济分析
环境科学
制浆造纸工业
环境工程
膜
工艺工程
海水淡化
工程类
色谱法
经济
电极
电解质
宏观经济学
生物化学
农业经济学
物理化学
作者
R. Schwantes,Y. Morales,E. Pomp,Jeremy W. Singer,K. Chavan,Florencia Saravia
出处
期刊:Desalination
[Elsevier BV]
日期:2025-03-28
卷期号:608: 118848-118848
被引量:12
标识
DOI:10.1016/j.desal.2025.118848
摘要
The transition to hydrogen production with renewable energies necessitates ultrapure water (UPW) as a raw material for water electrolysis, which imposes stringent quality and economic demands on water treatment technologies. This study evaluates the techno-economic feasibility of membrane distillation (MD) as an alternative to reverse osmosis (RO) for UPW production. Utilizing waste heat from a 5 MW proton exchange membrane (PEM) electrolyzer, which would otherwise require active cooling to sustain operation of the electrolyzer, the proposed MD system employs permeate gap membrane distillation to treat feedwaters with brackish and seawater salinities (i.e., 5 g NaCl /kg and 34.3 g NaCl/kg, respectively). The study incorporates numerical simulations to analyse system design parameters and energy consumption of MD and RO systems designed to produce 1 t/h of distillate, as well as experimental data on distillate water quality. Results demonstrate that MD systems achieve high-quality distillate (<3 μS/cm) under the tested salinities and at competitive costs. Estimated unit costs per ton of produced distillate for MD range from €2.33 to €2.85 for either brackish or seawater feed at electricity prices of €0.10–€0.40/kWh, while RO costs range from €2.80 to €5.51 under comparable conditions. The presented annual costs also reflect the cost advantage, especially for seawater desalination with MD costs, approx. 40 % lower than RO. MD shows advantages in energy efficiency with thermal energy provided as low-grade heat. This work shows that MD can be a cost- efficient and versatile solution for UPW production powered by PEM electrolyzer waste heat. • MD module design specifically for integration with electrolyzer waste heat • Distillate quality experiments yield conductivity under 3 μS/cm • Comparable RO system design and economic comparison with MD • MD proves to be more cost efficient than RO when waste heat is available.
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