Experiments and Modeling the Effect of Rising Supersaturation on Induction Times (tind) with Implications for Energy Production DOI
Amit Reiss,

Guannan Deng,

Y. Ye

et al.

SPE International Conference on Oilfield Chemistry, Journal Year: 2025, Volume and Issue: unknown

Published: April 2, 2025

Abstract During energy production, brines continuously become increasingly supersaturated towards mineral phases. This rise in supersaturation causes scaling that is detrimental to production. Experimentally determining the effect of environmental conditions and presence inhibitors on induction times (tind) developing predictive models has been focus many studies. However, common practice use systems with a constant for such purposes. We have developed an experimental system quantify rising tind. Our results show rate at which rises controls this data not obtained from traditional experiments included previous modeling schemes significantly misestimate actual Here, we present our scheme nucleation calcite barite showing different dependencies supersaturation. Moreover, demonstrate existing can be adjusted accurately describe tind under increasing Updating current account supersaturation, as suggested here, will provide powerful tool improving predictions scale formation support better mitigation strategies.

Language: Английский

Experiments and Modeling the Effect of Rising Supersaturation on Induction Times (tind) with Implications for Energy Production DOI
Amit Reiss,

Guannan Deng,

Y. Ye

et al.

SPE International Conference on Oilfield Chemistry, Journal Year: 2025, Volume and Issue: unknown

Published: April 2, 2025

Abstract During energy production, brines continuously become increasingly supersaturated towards mineral phases. This rise in supersaturation causes scaling that is detrimental to production. Experimentally determining the effect of environmental conditions and presence inhibitors on induction times (tind) developing predictive models has been focus many studies. However, common practice use systems with a constant for such purposes. We have developed an experimental system quantify rising tind. Our results show rate at which rises controls this data not obtained from traditional experiments included previous modeling schemes significantly misestimate actual Here, we present our scheme nucleation calcite barite showing different dependencies supersaturation. Moreover, demonstrate existing can be adjusted accurately describe tind under increasing Updating current account supersaturation, as suggested here, will provide powerful tool improving predictions scale formation support better mitigation strategies.

Language: Английский

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