Oily Sludge Separation Indonesia|oil sludge recovery : OEM The separation of oil components from oily sludge is an important component of soil remediation and energy recovery. Therefore, establishing a green and efficient separation technology is of … Publisher Summary. The characteristic curves indicate the behavior of a pump under changing operating conditions. The head, power input, and efficiency at constant speed n are plotted against the flow rate. A head-capacity curve of a centrifugal pump is said to be stable when the head curve rises steadily from high flow towards shut-off, i.e., there is always a negative slope.The first curve under pump performance characteristic is the head Vs. flow rate curve. It is also known as a pressure vs. quantity curve. To draw this curve head is plotted on Y-axis, and the flow is plotted on X-axis. You can see the sample HQ curve in the image here. Now let’s convert this curve to a word so that . See more
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The main difference between centrifugal and reciprocating pump is that, in centrifugal pumps, the fluid is continuously accelerated by a set of impeller blades whereas, in reciprocating pumps, the periodic motion of a piston draws .
Oil Sludge Recovery
As a result, numerous procedures for extracting crude oil from oily sludge have been developed, including solvent extraction, pyrolysis, centrifugation, ultrasonic treatment, electronic treatment, flotation, supercritical treatment, and combination processes.
Oil sludge is a common byproduct of the petroleum industry, consisting of a mixture of oil, water, and solid particles. The presence of oil sludge poses environmental and economic challenges, as it can contaminate soil and water sources if not properly managed. In Indonesia, where the oil and gas industry plays a significant role in the economy, the need for effective oily sludge separation solutions is paramount.
Oil Sludge Recovery 2021
In recent years, there has been a growing focus on developing innovative technologies for the recovery of oil sludge. These technologies aim to separate the oil, water, and solid components of the sludge, allowing for the recovery of valuable resources and the proper disposal of waste materials.
One of the key challenges in oily sludge recovery is the varying characteristics of the sludge itself. Different oily soils may have different total petroleum hydrocarbon (TPH) concentrations, which can affect the efficiency of the separation process. However, research has shown that key parameters such as the original TPH concentration and temperature play a significant role in determining the TPH removal rate.
Oil Sludge Recovery: Key Parameters
The original TPH concentration of the oily sludge is a crucial factor in determining the effectiveness of the separation process. Higher TPH concentrations may require more advanced separation techniques and longer processing times to achieve satisfactory results. In Indonesia, where oil sludge with varying TPH concentrations is commonly encountered, it is essential to tailor the recovery process to the specific characteristics of the sludge.
Temperature is another critical parameter that influences the efficiency of oily sludge separation. Higher temperatures can enhance the separation of oil from water and solids, leading to increased TPH removal rates. However, the optimal temperature for oily sludge separation may vary depending on the specific composition of the sludge and the chosen recovery method.
VICO Indonesia is now applying separation and land-farming bioremediation technology to achieve zero oily waste discharge in order to minimize the environmental impact …
Guide to designing stations with the KRT submersible motor pump series. Click on the image below for free download
Oily Sludge Separation Indonesia|oil sludge recovery