Search for a Commodity and Check Solutions Offered
Refine Results
Results 1 - 6 of 6
This study presents a techno-economic analysis of Epichlorohydrin production from propylene and chlorine in the United States. In this process, propylene is subjected to an acetoxylation reaction, followed by hydrolysis, generating allyl alcohol, which is then chlorinated, yielding glycerol dichlorohydrins. Finally, the glycerol dichlorohydrins generated are reacted with calcium hydroxide, yielding Epichlorohydrin.
This feasibility study provides an economic analysis of Epichlorohydrin (ECH) production from propylene and chlorine in the United States. Initially, propylene is chlorinated, generating allyl chloride, which is reacted with hypochlorous acid, formed by chlorine dispersion in water. Finally, the glycerol dichlorohydrins generated are hydrolyzed with calcium hydroxide, yielding ECH.
This report provides a techno-economic study of an early stage process for Epichlorohydrin production from acrolein in the United States. The process examined is a non-commercial route based on Dow Chemical patents.
This report presents a economic analysis of Epichlorohydrin production from allyl chloride and chlorine in the United States using a typical hypochlorination process. Initially, allyl chloride is reacted with hypochlorous acid, formed by chlorine dispersion in water. The glycerol dichlorohydrins generated are then treated with calcium hydroxide to promote epoxidation, yielding ECH.
This study provides an economic analysis of Epichlorohydrin production from glycerol in the United States. Initially, glycerol is reacted with hydrogen chloride in a hydrochlorination reaction, generating dichlorohydrins (DCH). Then, the DCH is hydrolyzed by caustic soda, yielding epichlorohydrin (ECH).
This report presents the economics of Epichlorohydrin (ECH) production from glycerol and sodium chloride in the United States. Initially, brine is decomposed electrolytically in a membrane cell, producing chlorine, caustic soda and hydrogen. The hydrogen and chlorine react forming hydrogen chloride (HCl). Finally, glycerol is reacted with HCl, generating dichlorohydrins (DCH), which are hydrolyzed to ECH by the caustic soda.