Evaluation Properties Of Saline Water Based Muds / Saturated Salt Muds - 1375 Words

Evaluation Properties Of Saline Water Based Muds / Saturated Salt Muds (Lab Report Sample) Content: Students NameProfessors NameCourse TitleDate of SubmissionSalt Water Based MudsObjectiveThis study was meant to help the learners in understanding the evaluation of the properties of saline water based muds/ saturated salt muds.ProcedureTo begin with, four groups each comprising 3 people were formed. Each of the group was given two samples containing different concentrations of Aquagel and Zeogel. Water was introduced to each sample to form the desired drilling fluid. Then, the salt water based mud samples were formed by adding salt into the samples. Finally, some part of the salt water based mud had fresh water added to it for dilution. Each of the 4 groups was assigned a different weighed concentration of clay such as 8%, 6%, 4% and 2%.At the start of the experiment, the learners were required to determine the necessary amount of samples for calculating the mud density. Specific equations were used in calculating the amount of water and clay as indicated in the calc ulations part. Each of the samples was weighed using a digital scale to get the specific amount of clay (gm). The mass of the clay was dependent on the needed sample concentration (pp) that was convertible using the calculations. After preparing the samples, each was dissolved in 500 milliliter of fresh water using a blender cup; the graduated cylinder was used in measuring the water used to create the desired concentration of the mud in (ppb). Furthermore, dissolving the mud for several minutes using a mud mixture ensured that a uniform mixture was created by making the clay particles to get sufficient contact with the water CITATION Fat152 \l 2057 (Belyadi).After realizing a uniform mud, measuring the mud density occurred via utilization of a mud balance. During this step, the mud cup was filled with the sample and then covered with a lid while allowing only a small fraction of the mud to escape. The balances arm was positioned at the pivot while the sliding load was adjusted ti ll both sides balanced. Then, the density was recorded (ppg) from the LHS of the sliding weight. After determining the mud density, the mud sample was taken back into the blender cup CITATION Fat152 \l 2057 (Belyadi).Next, each group was required to use the viscosimeter to measure the viscosity. The components of a viscosimeter include; * A constant rotating rotor sleeve * An internal bob * A torsion spring that keeps the inner bob into position.The mud cup was filled up to the upper limit with the mud sample. The mud cup was positioned under the sleeve such that it was dipped into the mud cup up to the 2nd line. The rotor sleeves velocity was set to (600 rpm, 300 rpm, 200 rpm, 100 rpm, 6 rpm, and 3 rpm, gel strength) to allow the stirring of the mud till a steady reading was possible. All the viscosity reading were recorded and used in the calculation of the plastic, and apparent viscosity and later the yield point. The previous steps were repeated for all the other samples. Final ly, all the apparatus were cleaned and stored accordigly. Moreover, the data obtained was exchanged among the groups CITATION Fat152 \l 2057 (Belyadi).MaterialsEquipmentCalculation of Density and WeightNB: Phase 1 (a) was used in sample calculation.Prediction of Mud Densitymud=%100 weight % clayclay+ weight % waterwater gmccmud=%100 0.022.65+ 0.981 =1.013 gmccmud=mudwater= 1.013 gmcc1 gmcc=1.013Amount of clayweight of clay=mud-water1-mudclaygmcc of waterweight of clay=1.013-11-1.0132.65=0.02gmcc of waterweight of clay=0.02gmcc of water x 500 cc of waterweight of clay=10.204gmAmount of Saltweight gm=Conceration ppbx1gm350cc1ppb x500cc1ppb=1gm350ccweight=25 ppb x1gm350cc1ppb x500cc=35.710 gm of saltPrediction of the initial density of mudmud_initial=Weight of Clay+Weight of Salt+Weight of Water Weight of layClay density+ Weight SaltSalt density+Volume of Watermud_initial=10.204 gm+35.714 gm+500 gm 10.204 gm2.65gmcc+ 35.714 gm2.15gmcc+500 ccmud_initial=1.049 gm/ccmud_initial=mud_i nitialwater=1.049 gm/cc1gmcc=1.049Calculation of the Volume of fresh waterVw=i-ff-wVw=133 cc1.049-1.0131.013-1=367 ccData and MeasurementsThe following table (Table 1) indicates the desired sample concentrations that were prepared during the experimentTable 1: Data MeasurementsTable 2: Calculation of ViscosityCalculations and ResultsCalculation of ViscosityNB: Phase 1 (a) was used in sample calculation.Plastic Viscosity (p)=600- 300=5-4=1cpApparent Viscosity (a)=6002=52= 2.5cpCalculation of Yield PointNB: Phase 1 (a) was used in sample calculation.y=300-p=4-1=3 lbs100ft2GraphsGraph 1: Plastic Viscosity against Weight of AquagelPlastic viscosity for the Aquagel was higher than that of Aquagel+salt. Dilution slightly lowered the Plastic Viscosity.Graph 2: Apparent Viscosity against Weight of AquagelApparent viscosity for the Aquagel was higher than that of Aquagel + salt. Dilution slightly lowered the Apparent Viscosity.Graph 3: Yield Point against weight of AquagelYield point for the Aquagel was higher than that of Aquagel+salt. Dilution slightly lowered the Yield pointGraph 4: Plastic Viscosity against Weight of ZeogelPlastic viscosity for the Zeogel was lower than that of Zeogel+salt. Dilution slightly lowered the Plastic Viscosity.Graph 5: Apparent Viscosity against Weight of ZeogelThe apparent viscosity for the Zeogel was higher than that of Zeogel+salt. Dilution slightly lowered the Apparent Viscosity.Graph 6: Graph 3: Yield Point against weight of ZeogelThe Yield point for the Zeogel was higher than that of Zeogel + salt. Dilution slightly lowered the Yield point.DiscussionConsidering Table 1 above, adding salt to both Aquagel and Zeogel resulted into an increase in the mud density. The dilution of the salt based mud samples using fresh water recovered the original density of the mud. Looking at Graph 1, 2, and 3 one can see that the addition of the salt resulted to the decrease in the viscosity as well as the yield point with the increase in amount of t he Aquagel added. Similarly, considering Graph 4, 5, and 6, the addition of the salt resulted to the decrease in...