Ursachen der Krustenbildung

Junghahn, L.

doi:10.1002/maco.19620130304

Cited by 8 publications

(2 citation statements)

References 3 publications

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“…It is known that inert materials, such as plastics and glass, generally exhibit less tendency to nucleate scale than metals (1 -3). There is also some evidence that different metallic surfaces show different propensities to nucleate scale, apparently related t o their differing corrosion rates (4,5).…”

Section: Introductionmentioning

confidence: 99%

The Link Between the Corrosion and calcium carbonate scaling susceptibilities of heat transfer surfaces

Troup

Richardson

1978

Materials & Corrosion

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The nucleation o f CaCO, scales on copper, graphite, aluminium and mild steel heat transfer surfaces at surface temperatures 54-56 "C, f r o m turbulent solutions ( R e 22,000) of bulk temperature 30 "C, has been studied using thermal resistance and corrosion potential measurements and scanning electron microscopy. The rate of CaCO, scale nucleation and growth decreases in the order mild steel > aluminium > copper and graphite. Scale nucleation apparently proceeds from the very outset, throughout an apparent thermal induction period, the end o f which appears to be associated with the development of nuclei into aragonite clusters. The differing scaling susceptibilities o f the materials are directly related to their corrosion susceptibilities. Studies on aluminium highlight the importance o f the nature and integrity of surface oxide films in determining scaling susceptibility. Under the conditions examined, scales consist primarily of aragonite, with small amounts of calcite and vaterite. Mild steel surfaces apparently favour growth of "flower" vaterite.

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Section: Introductionmentioning

confidence: 99%

The Link Between the Corrosion and calcium carbonate scaling susceptibilities of heat transfer surfaces

Troup

Richardson

1978

Materials & Corrosion

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“…1. 28 The smaller the wetting angle, the easier it is for nuclei to fonn as a result of a lower amount of energy involved.…”

Section: Wetting and Adhesionmentioning

confidence: 99%

Insight Into Strontium and Calcium Sulfate Scaling Mechanisms in a Wet Producer

Shen¹,

Crosby²

1983

Journal of Petroleum Technology

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On-going field scaling tests have provided a unique opportunity to study how strontium sulfate and calcium sulfate scales are formed in an oil-producing well. Results indicate that development of nucleation sites on tubing surfaces is the most critical step. Scale profiles within a wellbore are determined mainly by kinetics of crystallization, well-fluid dynamics, and tubing surface characteristics and, especially, synergistic effects of these factors.

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