Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Synthesis and evaluation of amino acid modified polyepoxysuccinic acid as inhibitor of calcium carbonate scale
Amino acid (AA) was used as a green grafting agent to functionalize polyepoxysuccinic acid (PESA), and three AA-modified PESA (AA-PESA) CaCO3 scale inhibitors were obtained to change the structural singleness of PESA and further improve its comprehensive properties. The structures of AA-PESA were characterized by Fourier transform infrared (FTIR) spectroscopy and nuclear magnetic resonance hydrogen (1HNMR) spectroscopy. The molecular weights of AA-PESA were analyzed by gel permeation chromatography (GPC). The synthesis technology of AA-PESA was optimized by single-factor and orthogonal experiments. The CaCO3 scale inhibition performance of AA-PESA was studied by the static scale-inhibition method, and the scale inhibition mechanism was analyzed. Results showed that AA-PESAs had the same synthesis process: n(PESA):n(AA) = 1:0.625, reaction temperature of 95 °C, and reaction time of 2 h. In the water system with pH 7.0–8.5, agent concentration of 8–10 mg/L, action period of 10–14 h, ambient temperature <80 °C, and ρ(Ca2+) < 250 mg/L, the inhibition rate of the three AA-PESAs on CaCO3 could reach 100%, and GIN was preferred for the graft modification of PESA. FTIR, X-ray diffraction (XRD), and scanning electron microscopy (SEM) results showed that the addition of AA-PESA could control the nucleation sites of CaCO3 crystals, had important influence on the growth of calcite (104) crystal planes, and had a good inhibitory effect on the CaCO3 scale. HIGHLIGHTS AA-PESA were synthesized by modification with AAs as green grafting agents and their molecular weights were all more than 3,500 g/mol.; The synthesis technology of AA-modified PESA was optimized by single-factor and orthogonal experiments.; Scale inhibition mechanism of AA-PESA was determined by microscopic analysis.;
Synthesis and evaluation of amino acid modified polyepoxysuccinic acid as inhibitor of calcium carbonate scale
Amino acid (AA) was used as a green grafting agent to functionalize polyepoxysuccinic acid (PESA), and three AA-modified PESA (AA-PESA) CaCO3 scale inhibitors were obtained to change the structural singleness of PESA and further improve its comprehensive properties. The structures of AA-PESA were characterized by Fourier transform infrared (FTIR) spectroscopy and nuclear magnetic resonance hydrogen (1HNMR) spectroscopy. The molecular weights of AA-PESA were analyzed by gel permeation chromatography (GPC). The synthesis technology of AA-PESA was optimized by single-factor and orthogonal experiments. The CaCO3 scale inhibition performance of AA-PESA was studied by the static scale-inhibition method, and the scale inhibition mechanism was analyzed. Results showed that AA-PESAs had the same synthesis process: n(PESA):n(AA) = 1:0.625, reaction temperature of 95 °C, and reaction time of 2 h. In the water system with pH 7.0–8.5, agent concentration of 8–10 mg/L, action period of 10–14 h, ambient temperature <80 °C, and ρ(Ca2+) < 250 mg/L, the inhibition rate of the three AA-PESAs on CaCO3 could reach 100%, and GIN was preferred for the graft modification of PESA. FTIR, X-ray diffraction (XRD), and scanning electron microscopy (SEM) results showed that the addition of AA-PESA could control the nucleation sites of CaCO3 crystals, had important influence on the growth of calcite (104) crystal planes, and had a good inhibitory effect on the CaCO3 scale. HIGHLIGHTS AA-PESA were synthesized by modification with AAs as green grafting agents and their molecular weights were all more than 3,500 g/mol.; The synthesis technology of AA-modified PESA was optimized by single-factor and orthogonal experiments.; Scale inhibition mechanism of AA-PESA was determined by microscopic analysis.;
Synthesis and evaluation of amino acid modified polyepoxysuccinic acid as inhibitor of calcium carbonate scale
Haojie Zhao (Autor:in) / Yuhua Yang (Autor:in) / Changrui Miao (Autor:in) / Wenjun Huang (Autor:in) / Sikai Wang (Autor:in) / Yunfei Wang (Autor:in)
2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
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