%0 Journal Article
%@ 10614303
%A Khan, M.M.
%A Asghar, H.M.A.
%A Saulat, H.
%A Chawla, M.
%A Rafiq, S.
%A Khan, M.M.
%A Ya Jie, W.
%A Aslam, M.
%A Mukhtar, A.
%D 2021
%F scholars:14552
%I John Wiley and Sons Inc
%J Water Environment Research
%K Cost effectiveness; Costs; Effluents; Graphite; Hazards; Industrial wastes; Industrial water treatment; Sewage; Waste treatment; Wastewater treatment, Adsorbent regeneration; Electrochemical reactor; Electrochemical regeneration; Electrochemical systems; Hazardous industrial wastes; Hazardous wastewaters; Industrial wastewaters; Regeneration efficiency, Solar energy, carbimazole; crystal violet; graphite; industrial effluent; sorbent; graphite, alternative energy; effluent; graphite; industrial waste; regeneration; surface area; wastewater; wastewater treatment, Article; controlled study; human; waste water management; solar energy; wastewater; water management, Graphite; Humans; Solar Energy; Waste Water; Water Purification
%N 9
%P 1554-1561
%R 10.1002/wer.1537
%T Hazardous wastewater treatment by low-cost sorbent with in situ regeneration using hybrid solar energy-electrochemical system
%U https://khub.utp.edu.my/scholars/14552/
%V 93
%X Hazardous industrial wastes negatively impact the environment by creating issues for aquatic as well as human's life. This study investigates the treatment of hazardous industrial wastewater using cost-effective graphite adsorbent along with electrochemical regeneration integrated with renewable solar energy. The synthetic industrial effluent containing crystal violet dye was treated using an adsorbent (Nyex� 1000) having a surface area of 1.0 m2 g�1. The efficiency of removing solute was found to be more than 90. The adsorbent regeneration efficiency was achieved at 99.5 by passing a charge of 100 C g�1 at current density of 10 mA cm�2 for 1 h. Solar energy was integrated with electrochemical reactor for the regeneration of adsorbent to make the system cost-effective and self-sustainable. Practitioner points: Industrial hazardous wastewater treatment with a cost-effective graphite integrated adsorbent. Development of renewable solar energy-integrated with electrochemical system for regeneration. Regeneration efficiency of adsorbent Nyex� 1000 was achieved around 99.5 with integrated system. Sustainable system was introduced to incorporate with renewable energy for waste water treatment. © 2021 Water Environment Federation
%Z cited By 5