Bulbless thermal expansion valve

What is claimed is: 1. A bulbless thermal expansion valve for a system, the expansion valve comprising: a valve body having a first fluid passage extending between a first inlet and a first outlet of the valve body, and a second fluid passage extending between a second inlet and a second outlet of the valve body; a valve member movable along a longitudinal axis relative to the valve body for controlling expansion of coolant flowing through the first fluid passage of the valve body; a power element including a casing and a diaphragm coupled to the casing, the casing including a lower casing portion underlying the diaphragm and an upper casing portion overlying the diaphragm, the diaphragm having a first side operatively coupled to the valve member and a second side opposite the first side, wherein the second side of the diaphragm and the upper casing portion together form at least part of a sensing chamber that constitutes a thermal sensor of the expansion valve; and a thermally insulative spacer arrangement positioned between the lower casing portion and the valve body at a position that is radially outward of the longitudinal axis; wherein the thermally insulative spacer arrangement has a radially inner portion, and the thermally insulative spacer arrangement is configured to prevent direct contact of the lower casing portion with the valve body at all respective points of the lower casing portion and the valve body that are located radially outwardly relative to the radially inner portion; wherein the expansion valve is devoid of a remote sensing bulb; and wherein the sensing chamber contains a thermal sensing fluid in fluid communication with the second side of the diaphragm, such that changes in the temperature of the sensing fluid results in changes in pressure applied to the second side of the diaphragm, thereby causing movement of the diaphragm which provides movement of the valve member operatively coupled to the first side of the diaphragm. 2. The bulbless thermal expansion valve according to claim 1 , wherein: the radially inner portion of the thermally insulative spacer arrangement lies in a vertical plane that is parallel to the longitudinal axis; the lower casing portion has a lower surface that faces the valve body and lies in a first horizontal plane that is transverse to the longitudinal axis; and the thermally insulative spacer arrangement is arranged between the lower casing portion and the valve body such that all points of the lower surface of the lower casing portion that are radially outward of the vertical plane do not directly contact any portion of the valve body. 3. The bulbless thermal expansion valve according to claim 2 , wherein: the valve body has an upper end surface that lies in a second horizontal plane that is transverse to the longitudinal axis; the second horizontal plane and the first horizontal plane are parallel to each other, and a gap is formed between the lower surface of the lower casing portion and the upper end surface of the valve body; and the thermally insulative spacer arrangement is positioned in the gap. 4. The bulbless thermal expansion valve according to claim 3 , wherein: the radially inner portion of the thermally insulative spacer arrangement faces toward the longitudinal axis, the thermally insulative spacer arrangement also having a radially outer portion that is further from the longitudinal axis compared to the radially inner portion, and the gap is an open gap such that the radially outer portion faces away from the longitudinal axis toward an open space that is open to an area outside of the valve body. 5. The bulbless thermal expansion valve according to claim 1 , wherein: the lower casing portion is mounted to the valve body, and at least a portion of the lower casing portion together with at least a portion of the first side of the diaphragm form at least a portion of a fluid chamber that is fluidly connected to the second fluid passage of the valve body; and the thermally insulative spacer arrangement includes a sealing surface that sealingly engages against the lower casing portion to fluidly seal the fluid chamber. 6. The bulbless thermal expansion valve according to claim 5 , wherein: the thermally insulative spacer arrangement includes a seal having the sealing surface, and a spacer component that is discrete with respect to the seal. 7. The bulbless thermal expansion valve according to claim 6 , wherein: the spacer component is located radially outwardly of the seal and supports the seal. 8. The bulbless thermal expansion valve according to claim 7 , wherein: the spacer component and the seal are disposed in a gap that opens radially outwardly to an area outside the valve body. 9. The bulbless thermal expansion valve according to claim 6 , wherein: the seal is made with a first material; and the spacer component is made with a material that is different than the first material of the seal. 10. The bulbless thermal expansion valve according to claim 6 , wherein: the spacer component is made with a thermally insulative material selected from: a polymer, a ceramic, a mineral, or a foam. 11. The bulbless thermal expansion valve according to claim 6 , wherein: the spacer component is made with a polymer material selected from nylon. polyether ether ketone (PEEK), polytetrafluoroethylene (PTFE), or silicone. 12. The bulbless thermal expansion valve according to claim 6 , wherein: the spacer component is made with a thermally insulative material having a thermal conductivity in a range from 0.01 W/m-K to 50 W/m-K. 13. The bulbless thermal expansion valve according to claim 1 , wherein a dome enclosure is mounted to the upper casing portion, the dome enclosure forming at least part of the sensing chamber such that the dome enclosure constitutes an upper portion of the thermal sensor that forms a self-contained closed thermodynamic system. 14. The bulbless thermal expansion valve according to claim 1 , wherein a ballast is mounted in the sensing chamber in spaced relation to the second side of the diaphragm. 15. The bulbless thermal expansion valve according to claim 1 , wherein the thermally insulative spacer arrangement includes a spacer component that is made with a thermally insulative material having a thermal conductivity in a range from 0.01 W/m-K to 50 W/m-K. 16. A bulbless thermal expansion valve for a system, the expansion valve comprising: a valve body having a first fluid passage extending between a first inlet and a first outlet of the valve body, and a second fluid passage extending between a second inlet and a second outlet of the valve body; a valve member movable relative to the valve body for controlling expansion of coolant flowing through the first fluid passage of the valve body; a power element including a casing and a diaphragm coupled to the casing, the casing including a lower casing portion underlying the diaphragm and an upper casing portion overlying the diaphragm, the diaphragm having a first side operatively coupled to the valve member and a second side opposite the first side, wherein the second side of the diaphragm and the upper casing portion together form at least part of a sensing chamber that constitutes a thermal sensor of the expansion valve; wherein the lower casing portion is mounted to the valve body, and at least a portion of the lower casing portion together with at least a portion of the first side of the diaphragm form at least a portion of a fluid chamber that is fluidly connected to the second fluid passage of the valve body; wherein a seal sealing