Rheometer systems and related methods

What is claimed is: 1. A rheometer system, comprising: a rheometer; a platform supporting the rheometer and movable between a lowered position and a raised position; a fluid receptacle defining an opening; a receptacle housing having a housing side and adapted to receive the fluid receptacle, the opening of the fluid receptacle facing the rheometer when the fluid receptacle is received by the receptacle housing; a Peltier thermoelectric device coupled adjacent to the housing side and configured to maintain a temperature of the receptacle housing through conduction; and a controller in communication with the thermoelectric device and configured to adjust a rate of supply of power to the thermoelectric device and thereby adjustably control a temperature of the thermoelectric device. 2. The rheometer system of claim 1 , further comprising: a housing temperature sensor disposed within the receptacle housing and configured to monitor the temperature of the receptacle housing; and a fluid receptacle temperature sensor coupled to the platform and arranged to be disposed within the fluid receptacle when the platform is in the lowered position and the fluid receptacle is received by the receptacle housing to monitor a temperature of a fluid within the fluid receptacle. 3. The rheometer system of claim 2 , wherein the receptacle housing defines a sensor receptacle and the housing temperature sensor is disposed within the sensor receptacle. 4. The rheometer system of claim 1 , further comprising a heat sink coupled adjacent to the thermoelectric device. 5. The rheometer system of claim 4 , further comprising a heat exchanger comprising the heat sink, a radiator, and a fan, the heat sink being fluidically coupled to the radiator to allow coolant to flow between the radiator and the heat sink. 6. The rheometer system of claim 1 , further comprising insulation covering the receptacle housing. 7. The rheometer system of claim 6 , wherein the insulation comprises a hole and the thermoelectric device is positioned adjacent the hole. 8. The rheometer system of claim 1 , wherein the receptacle housing has a second housing side opposite the housing side, and further comprising a second Peltier thermoelectric device coupled adjacent to the second housing side, the controller being in communication with the second thermoelectric device and being configured to adjust the rate of supply power to the second thermoelectric device and thereby adjustably control a temperature of the second thermoelectric device. 9. The rheometer system of claim 8 , further comprising a pair of housing temperature sensors, each housing temperature sensor being disposed within the receptacle housing adjacent a corresponding housing side. 10. The rheometer system of claim 1 , wherein the Peltier thermoelectric device directly contacts the receptacle housing side to conduct heat through the housing side. 11. The rheometer system of claim 1 , further comprising a heat transfer paste positioned between the receptacle housing side and the Peltier thermoelectric device for conducting heat from the Peltier thermoelectric device through the receptacle housing side via the heat transfer paste. 12. The rheometer system of claim 11 , wherein the Peltier thermoelectric device is configured to maintain the temperature of the receptacle housing based on heating the receptacle housing through conduction. 13. The rheometer system of claim 1 , wherein the Peltier thermoelectric device is configured to maintain the temperature of the receptacle housing based on cooling the receptable housing through conduction. 14. The rheometer system of claim 1 , wherein the Peltier thermoelectric device is positioned on an exterior of the receptacle housing. 15. A rheometer system, comprising: a platform movable between a lowered position and a raised position; a fluid receptacle defining an opening; a receptacle housing having a housing side and adapted to receive the fluid receptacle, the opening of the fluid receptacle facing the platform when the fluid receptacle is received by the receptacle housing; and a Peltier thermoelectric device coupled adjacent to the housing side and configured to maintain a temperature of the receptacle housing through conduction; and a controller in communication with the thermoelectric device and configured to adjust a rate of supply of power to the thermoelectric device and thereby adjustably control a temperature of the thermoelectric device. 16. The rheometer system of claim 15 , further comprising a housing temperature sensor disposed within the receptacle housing. 17. The rheometer system of claim 15 , further comprising a heat exchanger in thermal communication with the fluid receptacle. 18. The rheometer system of claim 17 , wherein the heat exchanger includes a liquid-to-air radiator or an air-to-air radiator. 19. A method, comprising: determining a temperature value within a receptacle housing housing a fluid receptacle during a rheology test; comparing the determined temperature value to a reference temperature value; and in response to the determined temperature value being outside of a threshold of the reference temperature value, changing the temperature within the receptacle housing using a Peltier thermoelectric device coupled adjacent to the receptacle housing and configured to maintain a temperature of the receptacle housing through conduction, the Peltier thermoelectric device in communication with a controller configured to adjust a rate of supply of power to the thermoelectric device and thereby allow a subsequently determined temperature value to be within the threshold of the reference temperature value. 20. The method of claim 19 , wherein changing the temperature within the receptacle housing using the thermoelectric device coupled adjacent to the receptacle housing comprises changing the temperature within the receptacle housing using a pair of Peltier thermoelectric devices coupled adjacent opposing sides of the receptacle housing.