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A global optimized operation strategy for energy savings in liquid desiccant air conditioning using self-adaptive differential evolutionary algorithm. (2017). Cai, Wenjian ; Yin, Xiaohong ; Wang, Xinli.
In: Applied Energy.
RePEc:eee:appene:v:187:y:2017:i:c:p:410-423.

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  1. Application of deep dehumidification technology in low-humidity industry: A review. (2024). Zhang, Qiuyue ; Li, Yanxin ; Lu, Xiaoshu ; Ma, Fengge.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:193:y:2024:i:c:s1364032124000017.

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  2. Modeling and Dynamic Simulation of a Hybrid Liquid Desiccant System with Non-Adiabatic Falling-Film Air-Solution Contactors for Air Conditioning Applications in Buildings. (2021). Coronas, Alberto ; Atienza-Marquez, Antonio ; Prieto, Juan.
    In: Energies.
    RePEc:gam:jeners:v:14:y:2021:i:2:p:505-:d:483100.

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  3. A review on integration and design of desiccant air-conditioning systems for overall performance improvements. (2021). Ren, H ; Ma, Z ; Sun, Y J ; Gao, D C.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:141:y:2021:i:c:s1364032121001040.

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  4. Optimization of the areas of solar collectors and photovoltaic panels in liquid desiccant air-conditioning systems using solar energy in isolated low-latitude islands. (2020). Fan, Ying ; Wang, Yingying ; Liu, Jiaping ; Qiu, Zhenghao.
    In: Energy.
    RePEc:eee:energy:v:198:y:2020:i:c:s036054422030431x.

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  5. Dynamic modeling and economic model predictive control of a liquid desiccant air conditioning. (2020). Jiang, Yuliang ; Yin, Xiaohong ; Wang, Lei ; Zhao, Hongxia.
    In: Applied Energy.
    RePEc:eee:appene:v:259:y:2020:i:c:s0306261919318616.

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  6. Multi-objective optimisation approach for campus energy plant operation based on building heating load scenarios. (2019). Kong, Xiangfei ; Wang, Qiaochu ; Ding, Yan ; Yang, Kun.
    In: Applied Energy.
    RePEc:eee:appene:v:250:y:2019:i:c:p:1600-1617.

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  7. Dynamic modeling of liquid-desiccant regenerator based on a state–space method. (2019). Kosonen, Risto ; Shen, Junjie ; Niu, Xiaofeng ; Gong, Yanfeng ; Liu, Wei.
    In: Applied Energy.
    RePEc:eee:appene:v:240:y:2019:i:c:p:744-753.

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  8. Model-based optimization for a heat pump driven and hollow fiber membrane hybrid two-stage liquid desiccant air dehumidification system. (2018). Zhang, Ning ; Li, Min ; Yin, Shao-You .
    In: Applied Energy.
    RePEc:eee:appene:v:228:y:2018:i:c:p:12-20.

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  9. A two-stage liquid desiccant dehumidification system by the cascade utilization of low-temperature heat for industrial applications. (2017). Su, Bosheng ; Jin, Hongguang ; Sui, Jun ; Han, Wei.
    In: Applied Energy.
    RePEc:eee:appene:v:207:y:2017:i:c:p:643-653.

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  10. A regulation strategy of working concentration in the dehumidifier of liquid desiccant air conditioner. (2017). Wu, Qiong ; Ren, Haoren ; Wang, Xinli ; Shen, Suping ; Cai, Wenjian.
    In: Applied Energy.
    RePEc:eee:appene:v:202:y:2017:i:c:p:648-661.

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  2. Comparative review of membrane-based desalination technologies for energy-efficient regeneration in liquid desiccant air conditioning of greenhouses. (2022). Davies, P A ; Mahmoud, S ; Lefers, R ; Pasqualin, P.
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  3. A state-of-the-art review on the liquid properties regarding energy and environmental performance in liquid desiccant air-conditioning systems. (2022). Yang, Hongxing ; Luo, Jielin.
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  6. A comprehensive review of liquid desiccant air conditioning system. (2019). Geoghegan, Patrick J ; Maiya, M P ; Gurubalan, A.
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  7. Thermodynamic optimization of a vacuum multi-effect membrane distillation system for liquid desiccant regeneration. (2018). Chen, Q ; Chua, K J ; Li, Y ; Ja, Kum M.
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  8. Thermodynamic feasibility evaluation of hybrid dehumidification – mechanical vapour compression systems. (2018). Thu, K ; Murthy, Srinivasa S ; Saha, B B ; Mitra, S.
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  9. Performance investigation on a novel liquid desiccant regeneration system operating in vacuum condition. (2018). Yon, Haoren ; Shen, Suping ; Wang, Youyi ; Cai, Wenjian.
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