SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W28318187> ?p ?o ?g. }

Showing items 1 to 77 of 77 with 100 items per page.

W28318187 abstract "The last 90 years have generated a considerable volume of technical literature on the subject of grinding mill power and its prediction. It is therefore surprising that in all this time there have been no published models for predicting grinding mill power draw which have been validated using a published wide range of comprehensive industrial scale data. Notwithstanding this lack of data, the majority of models have placed limited emphasis on the internal dynamics of mills and have relied on simple assumptions which consider the charge to take up a fixed position and shape. In recent years laboratory based studies (Liddell, 1986) have shown that these assumptions do not hold over a wide range of operating conditions, and bring into doubt the ability of existing models to accurately predict grinding mill power draw. To remedy this deficiency a research programme was therefore undertaken to: • provide a large compehensive data base of the power draws of industrial scale ball, semi-autogenous (SAG) and autogenous (AG) mills • use these data to develop mathematical models which can accurately predict the power draw of industrial grinding mills over a wide range of operating and design conditions The approach which was adopted utilized a glass fronted laboratory mill, operating under a range of speeds and fillings, to provide data on the movement of a charge in a grinding mill. The position of critical points in the charge and the velocity of particles within the charge were measured with the aid of photographic techniques. These measurements were then related mathematically to the operating conditions using empirical techniques. The equations which were developed from this exercise were incorporated in a theoretical approach to the prediction of power draw. The resultant model explicitly described the effects of the mill discharge mechanism (i.e. grate or overflow), as well as the shape of the end sections (i.e. planar or conical). The model made no specific distinction between ball, semi-autogenous (SAG) or autogenous (AG) mills except by virtue of their charge density and/or discharge mechanism. Two further models were developed, one of which was more complex in nature but which additionally accounted for the effect of grinding media size distribution on power draw. The other model was an empirical version with a very simple form yet similar predictive performance to the other two. Data were collected from a wide range of wet industrial grinding mills to calibrate and verify the model. In total 76 data sets were generated covering the power draws of ball, SAG and AG mills in the range 7 - 7900 kW. All three models were found to predict the power draw of the mills in the data base with a high degree of accuracy. This contrasted with the results from testing a number of existing published models, none of which were found to be entirely satisfactory." @default.
W28318187 created "2016-06-24" @default.
W28318187 creator A5018140968 @default.
W28318187 date "1993-01-01" @default.
W28318187 modified "2023-09-27" @default.
W28318187 title "The prediction of power draw in wet tumbling mills" @default.
W28318187 cites W1581690807 @default.
W28318187 cites W1597776365 @default.
W28318187 cites W1982585379 @default.
W28318187 cites W2046720424 @default.
W28318187 cites W2064202427 @default.
W28318187 cites W2073775990 @default.
W28318187 cites W2083167704 @default.
W28318187 cites W2092634146 @default.
W28318187 cites W2499799130 @default.
W28318187 cites W2511359950 @default.
W28318187 cites W2899839968 @default.
W28318187 cites W2900266989 @default.
W28318187 cites W73276546 @default.
W28318187 hasPublicationYear "1993" @default.
W28318187 type Work @default.
W28318187 sameAs 28318187 @default.
W28318187 citedByCount "16" @default.
W28318187 countsByYear W283181872012 @default.
W28318187 countsByYear W283181872013 @default.
W28318187 countsByYear W283181872016 @default.
W28318187 countsByYear W283181872017 @default.
W28318187 countsByYear W283181872019 @default.
W28318187 crossrefType "journal-article" @default.
W28318187 hasAuthorship W28318187A5018140968 @default.
W28318187 hasConcept C121332964 @default.
W28318187 hasConcept C127413603 @default.
W28318187 hasConcept C13736549 @default.
W28318187 hasConcept C146978453 @default.
W28318187 hasConcept C16057445 @default.
W28318187 hasConcept C163258240 @default.
W28318187 hasConcept C204323151 @default.
W28318187 hasConcept C2777571299 @default.
W28318187 hasConcept C62520636 @default.
W28318187 hasConcept C78519656 @default.
W28318187 hasConceptScore W28318187C121332964 @default.
W28318187 hasConceptScore W28318187C127413603 @default.
W28318187 hasConceptScore W28318187C13736549 @default.
W28318187 hasConceptScore W28318187C146978453 @default.
W28318187 hasConceptScore W28318187C16057445 @default.
W28318187 hasConceptScore W28318187C163258240 @default.
W28318187 hasConceptScore W28318187C204323151 @default.
W28318187 hasConceptScore W28318187C2777571299 @default.
W28318187 hasConceptScore W28318187C62520636 @default.
W28318187 hasConceptScore W28318187C78519656 @default.
W28318187 hasLocation W283181871 @default.
W28318187 hasOpenAccess W28318187 @default.
W28318187 hasPrimaryLocation W283181871 @default.
W28318187 hasRelatedWork W1975693294 @default.
W28318187 hasRelatedWork W1978341000 @default.
W28318187 hasRelatedWork W1979895803 @default.
W28318187 hasRelatedWork W1982577820 @default.
W28318187 hasRelatedWork W1982700308 @default.
W28318187 hasRelatedWork W1984460598 @default.
W28318187 hasRelatedWork W1985306890 @default.
W28318187 hasRelatedWork W1991319468 @default.
W28318187 hasRelatedWork W2005402622 @default.
W28318187 hasRelatedWork W2029479039 @default.
W28318187 hasRelatedWork W2039545054 @default.
W28318187 hasRelatedWork W2056195547 @default.
W28318187 hasRelatedWork W2066171143 @default.
W28318187 hasRelatedWork W2069242667 @default.
W28318187 hasRelatedWork W2078497598 @default.
W28318187 hasRelatedWork W2085747487 @default.
W28318187 hasRelatedWork W2091865839 @default.
W28318187 hasRelatedWork W2499799130 @default.
W28318187 hasRelatedWork W609638627 @default.
W28318187 hasRelatedWork W610571974 @default.
W28318187 isParatext "false" @default.
W28318187 isRetracted "false" @default.
W28318187 magId "28318187" @default.
W28318187 workType "article" @default.