{"id":4894,"date":"2021-01-24T12:18:19","date_gmt":"2021-01-24T11:18:19","guid":{"rendered":"https:\/\/www.nickzom.org\/blog\/?p=4894"},"modified":"2024-04-27T09:29:33","modified_gmt":"2024-04-27T08:29:33","slug":"how-to-calculate-and-solve-for-sedimentation-of-concentrated-suspension-rheology","status":"publish","type":"post","link":"https:\/\/www.nickzom.org\/blog\/2021\/01\/24\/how-to-calculate-and-solve-for-sedimentation-of-concentrated-suspension-rheology\/","title":{"rendered":"How to Calculate and Solve for Sedimentation of Concentrated Suspension | Rheology"},"content":{"rendered":"

\"\"<\/p>\n

The image above represents sedimentation of concentrated suspension. To calculate sedimentation of concentrated suspension, five essential parameters are needed and these parameters are Change in Density between the Dispersed and Continuous Phase of the Suspension (\u0394P), Acceleration due to Gravity (g), Particle Radius (a), <\/strong>Viscosity of Continuous Phase (\u03b7)<\/strong> and Solid Landing (\u03c6).<\/strong><\/p>\n

The formula for calculating sedimentation of concentrated suspension:<\/strong><\/h3>\n

v = 2\u0394Pga2<\/sup>\u00a0\/\u00a09\u03b7<\/sub>(1 – \u03c6)5 \u00b1 0.25<\/sup><\/p>\n

Where:<\/p>\n

v = Sedimentation of Concentrated Suspension
\n\u0394P = Change in Density between the Dispersed and Continuous Phase of the Suspension
\ng = Acceleration due to Gravity
\na = Particle Radius
\n\u03b7 = Viscosity of Continuous Phase
\n\u03c6 = Solid Landing<\/p>\n

Let’s solve an example;
\nFind the sedimentation of concentrated suspension when the change in density between the dispersed and continuous phase of the suspension is 20, the acceleration due to gravity is 12, the particle radius is 32, the viscosity of continuous phase is 14 and the solid landing is 0.<\/p>\n

This implies that;<\/p>\n

\u0394P = Change in Density between the Dispersed and Continuous Phase of the Suspension = 20
\ng = Acceleration due to Gravity = 12
\na = Particle Radius = 32
\n\u03b7 = Viscosity of Continuous Phase = 14
\n\u03c6 = Solid Landing = 0<\/p>\n

v =\u00a02\u0394Pga2<\/sup>\u00a0\/\u00a09\u03b7<\/sub>(1 – \u03c6)5 \u00b1 0.25<\/sup>
\nThat is, v = 2 x 20 x 12 x 322<\/sup>\u00a0\/\u00a09 x 14<\/sub>\u00a0x (1 – 0)5 + 0.25<\/sup>
\nv =\u00a02 x 20 x 12 x 1024<\/sup>\u00a0\/\u00a0126<\/sub>\u00a0x (1)5.25<\/sup>
\nv =\u00a0491520<\/sup>\u00a0\/\u00a0126<\/sub> x 1
\nSo, v = 3900.95 x 1
\nv =\u00a03900.95<\/b><\/p>\n

Therefore, the\u00a0sedimentation of concentrated suspension <\/strong>is 3900.95.<\/strong><\/p>\n

Read more:\u00a0How to Calculate and Solve for Relative Apparent Viscosity (for Concentrated suspension) | Rheology<\/a><\/p>\n

How to Calculate Sedimentation of Concentrated Suspension With Nickzom Calculator<\/strong><\/h3>\n

Nickzom Calculator \u2013\u00a0The Calculator Encyclopedia<\/strong> is capable of calculating the sedimentation of concentrated suspension.<\/p>\n

To get the answer and workings of the sedimentation of concentrated suspension using the Nickzom Calculator \u2013 The Calculator Encyclopedia.\u00a0<\/strong>First, you need to obtain the app.<\/p>\n

You can get this app via any of these means:<\/p>\n

Web<\/strong>\u00a0\u2013\u00a0https:\/\/www.nickzom.org\/calculator-plus<\/a><\/p>\n

To get access to the\u00a0professional\u00a0<\/strong>version via web, you need to\u00a0register<\/strong>\u00a0and\u00a0subscribe\u00a0<\/strong>for\u00a0NGN 2,000\u00a0<\/strong>per\u00a0annum<\/strong>\u00a0to have utter access to all functionalities.
\nYou can also try the\u00a0demo\u00a0<\/strong>version via\u00a0https:\/\/www.nickzom.org\/calculator<\/a><\/p>\n

Android (Paid)<\/strong>\u00a0\u2013\u00a0https:\/\/play.google.com\/store\/apps\/details?id=org.nickzom.nickzomcalculator<\/a>
\nAndroid (Free)<\/strong>\u00a0\u2013\u00a0https:\/\/play.google.com\/store\/apps\/details?id=com.nickzom.nickzomcalculator<\/a>
\nApple (Paid)<\/strong>\u00a0\u2013\u00a0https:\/\/itunes.apple.com\/us\/app\/nickzom-calculator\/id1331162702?mt=8<\/a>
\nOnce, you have obtained the calculator encyclopedia app, proceed to the\u00a0Calculator Map,\u00a0<\/strong>then click on\u00a0Materials and Metallurgical\u00a0<\/b>under\u00a0Engineering<\/strong>.<\/strong><\/p>\n

\"\"<\/p>\n

Now, Click on Rheology <\/strong>under Materials and Metallurgical<\/strong><\/p>\n

<\/p>\n

Now, Click on Sedimentation of Concentrated Suspension <\/strong>under\u00a0Rheology<\/strong><\/p>\n

\"\"<\/p>\n

The screenshot below displays the page or activity to enter your values, to get the answer for the sedimentation of concentrated suspension according to the respective parameters which is the Change in Density between the Dispersed and Continuous Phase of the Suspension (\u0394P), Acceleration due to Gravity (g), Particle Radius (a),<\/strong>\u00a0Viscosity of Continuous Phase (\u03b7)<\/strong> and Solid Landing (\u03c6)<\/strong>.<\/p>\n

\"\"<\/p>\n

Now, enter the values appropriately and accordingly for the parameters as required by the Change in Density between the Dispersed and Continuous Phase of the Suspension (\u0394P)<\/strong> is 20<\/strong>, Acceleration due to Gravity (g)<\/strong> is 12<\/strong>, Particle Radius (a) <\/strong>is 32, <\/strong>Viscosity of Continuous Phase (\u03b7)<\/strong> is 14 <\/strong>and Solid Landing (\u03c6)\u00a0<\/strong>is\u00a00<\/strong>.<\/strong><\/p>\n

\"How<\/p>\n

Finally, Click on Calculate<\/p>\n

\"How
\n\"How<\/p>\n

As you can see from the screenshot above,\u00a0Nickzom Calculator<\/strong>\u2013 The Calculator Encyclopedia solves for the sedimentation of concentration suspension and presents the formula, workings and steps too.<\/p>\n","protected":false},"excerpt":{"rendered":"The image above represents sedimentation of concentrated suspension. To calculate sedimentation of concentrated suspension, five essential parameters are…","protected":false},"author":5,"featured_media":14516,"comment_status":"open","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_yoast_wpseo_focuskw":"Calculate Sedimentation of Concentrated Suspension","_yoast_wpseo_title":"","_yoast_wpseo_metadesc":"Learn the steps and the formula on How to Calculate and Solve for Sedimentation of Concentrated Suspension in Rheology","_yoast_wpseo_opengraph-title":"","_yoast_wpseo_opengraph-description":"","_yoast_wpseo_twitter-title":"","_yoast_wpseo_twitter-description":"","_lmt_disableupdate":"","_lmt_disable":"","_sitemap_exclude":false,"_sitemap_priority":"","_sitemap_frequency":"","_yoast_wpseo_focuskw_text_input":"","csco_display_header_overlay":false,"csco_singular_sidebar":"","csco_page_header_type":"","footnotes":""},"categories":[47],"tags":[209,1412,60,543,1413,1400,1410,1408],"class_list":["post-4894","post","type-post","status-publish","format-standard","has-post-thumbnail","category-engineering","tag-acceleration-due-to-gravity","tag-change-in-density-between-the-dispersed-and-continuous-phase-of-the-suspension","tag-engineering","tag-materials-and-metallurgical","tag-particle-radius","tag-rheology","tag-solid-landing","tag-viscosity-of-continuous-phase","cs-entry"],"yoast_head":"\nHow to Calculate and Solve for Sedimentation of Concentrated Suspension | Rheology<\/title>\n<meta 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