Backscattering spectrometry for determining a concentration of solids in a solids-laden fluid

The invention claimed is: 1. An apparatus comprising: an electromagnetic radiation source that emits electromagnetic radiation; a sample chamber comprising a fluid sample inlet for introducing a solids-laden fluid sample therein, wherein the electromagnetic radiation transmits through the sample chamber and optically interacts with the solids-laden fluid sample to generate a backscattering signal, the sample chamber further comprising one or more of: a shear bob for applying a shear rate to the solids-laden fluid sample, the shear bob suspended in the sample chamber and rotatable about an axis, a sealable fluid pressurizing inlet for pressurizing the sample chamber and a pressure gauge for measuring the pressure in the sample chamber when pressurized, and/or a temperature source for heating the solids-laden fluid sample; and a detector that receives the backscattering signal and generates an output signal corresponding to a concentration of solids in the solids-laden fluid sample a signal processor configured to: determine a solids carrying capacity of the solids-laden fluid sample based on the output signal: and assign a solids carrying capacity threshold to the solids-laden fluid sample: and a mixing tank configured to reformulate the solids-laden fluid sample if the output signal exceeds the solids carrying capacity threshold. 2. The apparatus of claim 1 , wherein the sample chamber comprises the temperature source and further comprises a plurality of thermal conductivity probes to measure the thermal conductivity of the solids-laden fluid sample. 3. The apparatus of claim 2 , wherein the plurality of thermal conductivity probes are evenly distributed along a height or width of the sample chamber. 4. The apparatus of claim 1 , wherein the sample chamber comprises the sealable fluid pressurizing inlet, the sealable fluid pressurizing inlet connected to a pressurizing fluid source providing pressurizing fluid. 5. A method comprising: providing an electromagnetic radiation source that emits electromagnetic radiation; providing a sample chamber comprising a fluid sample inlet for introducing a solids-laden fluid sample therein, the sample chamber further comprising one or more of: a shear bob for applying a shear rate to the solids-laden fluid sample, the shear bob suspended in the sample chamber and rotatable about an axis; a sealable fluid pressurizing inlet for pressurizing the sample chamber and a pressure gauge for measuring the pressure in the sample chamber when pressurized; and/or a temperature source for heating the solids-laden fluid sample; transmitting the electromagnetic radiation from the electromagnetic radiation source and through the sample chamber to optically interact the electromagnetic radiation with the solids-laden fluid sample and generate a backscattering signal; receiving the backscattering signal with a detector; generating an output signal corresponding to a concentration of solids in the solids-laden fluid sample; determining a solids carrying capacity of the solids-laden fluid sample based on the output signal; and assigning a solids carrying capacity threshold to the solids-laden fluid sample, and wherein the solids-laden fluid sample is reformulated if the output signal exceeds the solids carrying capacity threshold. 6. A method comprising: providing an electromagnetic radiation source that emits electromagnetic radiation; providing a sample chamber comprising a fluid sample inlet for introducing a solids-laden fluid sample therein, the sample chamber further comprising one or more of: a shear bob for applying a shear rate to the solids-laden fluid sample, the shear bob suspended in the sample chamber and rotatable about an axis; a sealable fluid pressurizing inlet for pressurizing the sample chamber and a pressure gauge for measuring the pressure in the sample chamber when pressurized; and/or a temperature source for heating the solids-laden fluid sample; transmitting the electromagnetic radiation from the electromagnetic radiation source and through the sample chamber to optically interact the electromagnetic radiation with the solids-laden fluid sample and generate a backscattering signal; receiving the backscattering signal with a detector; generating an output signal corresponding to a concentration of solids in the solids-laden fluid sample, wherein the sample chamber comprises the shear bob; rotating the shear bob to apply a shear rate to the solids-laden fluid sample prior to transmitting the electromagnetic radiation through the sample chamber and optically interacting the electromagnetic radiation with the solids-laden fluid sample; and generating a series of output signals corresponding to the concentration of solids in the solids-laden fluid sample over time while applying the shear rate, thereby determining a shear-solids carrying capacity of the solids-laden fluid sample. 7. The method of claim 6 , wherein the shear rate applied over time is maintained at a steady state over time, is increased over time, or is decreased over time. 8. The method of claim 6 , further comprising assigning a shear-solids carrying capacity threshold to the solids-laden fluid sample, and wherein the solids-laden fluid sample is reformulated if one or more of the series of output signals exceeds the shear-solids carrying capacity threshold. 9. A method comprising: providing an electromagnetic radiation source that emits electromagnetic radiation; providing a sample chamber comprising a fluid sample inlet for introducing a solids-laden fluid sample therein, the sample chamber further comprising one or more of: a shear bob for applying a shear rate to the solids-laden fluid sample, the shear bob suspended in the sample chamber and rotatable about an axis; a sealable fluid pressurizing inlet for pressurizing the sample chamber and a pressure gauge for measuring the pressure in the sample chamber when pressurized; and/or a temperature source for heating the solids-laden fluid sample; transmitting the electromagnetic radiation from the electromagnetic radiation source and through the sample chamber to optically interact the electromagnetic radiation with the solids-laden fluid sample and generate a backscattering signal; receiving the backscattering signal with a detector; generating an output signal corresponding to a concentration of solids in the solids-laden fluid sample, wherein the sample chamber comprises the sealable fluid pressurizing inlet and a pressure gauge; connecting the sealable fluid pressurizing inlet to pressurizing fluid source to pressurize the sample chamber prior to transmitting the electromagnetic radiation through the sample chamber and optically interacting the electromagnetic radiation with the solids-laden fluid sample; and generating a series of output signals corresponding to the concentration of solids in the solids-laden fluid sample over time at a pressure corresponding to a pressurized sample chamber reading on the pressure gauge, thereby determining a pressurized-solids carrying capacity of the solids-laden fluid sample. 10. The method of claim 9 , wherein the pressure in the pressurized sample chamber is maintained at a steady state over time, is increased over time, or is decreased over time. 11. The method of claim 9 , further comprising assigning a pressurized-solids carrying capacity threshold to the solids-laden fluid sample, and wherein the solids-laden fluid sample is reformulated if one or more of the series of output signals exceeds the pressurized-solids carrying capacity threshold. 12. A method comprising: providing an electromagnetic radiation source that emits electro