Apparatuses, systems and methods for determining effective wind speed

What is claimed is: 1. A system for determining an effective wind speed comprising: a main housing configured to enclose electronics for monitoring a conductor; electrical conductors extending from the main housing to a first detector and a second detector disposed externally with respect to the main housing; the first detector comprising: a heated temperature-sensing element having a heater and a first temperature sensor; and a first housing at least partially housing the heated temperature-sensing element and configured to have a cavity for receiving at least part of the heated temperature-sensing element and to be affixed to the main housing; the second detector comprising: a non-heated temperature-sensing element having a second temperature sensor; and a second housing at least partially housing the non-heated temperature-sensing element and configured to have a cavity for receiving at least part of the non-heated temperature-sensing element and to be affixed to the main housing; and a processing unit at least one of electrically coupled and communicatively coupled to at least one of the heated temperature-sensing element and the non-heated temperature-sensing element, the processing unit adapted to determine the effective wind speed according to at least one of: a temperature at the heated temperature-sensing element; a temperature at the non-heated temperature-sensing element; and a difference between a temperature at the heated temperature-sensing element and a temperature at the non-heated temperature-sensing element; wherein the heated temperature-sensing element and the non-heated temperature-sensing element and their respective first housing and second housing are arranged to be collinear with respect to each other, and to be proximate and parallel to the conductor for which the effective wind speed is being determined. 2. The system for determining an effective wind speed of claim 1 , wherein each of the first housing and the second housing is configured to have a first end extending away from the main housing and a second end that abuts the main housing and has an opening to the cavity. 3. The system for determining an effective wind speed of claim 2 , wherein the second end has a flange with at least one aperture for receiving a fastener for coupling the corresponding one of the first housing and the second housing to the main housing. 4. The system for determining an effective wind speed of claim 1 , wherein each at the first housing and second housing is composed of a unitary piece of material defining the cavity therein. 5. The system for determining an effective wind speed of claim 4 , wherein the cavity has a planar edge along a longitudinal axis of the corresponding one of the first housing and the second housing against which a circuit board is disposed for support within the cavity, the circuit board having, respectively, at least one of the heater and the first temperature sensor of the heated temperature-sensing element, and the second temperature sensor of the non-heated temperature-sensing element. 6. The system for determining an effective wind speed of claim 4 , wherein the unitary piece of material is tubular. 7. The system for determining an effective wind speed of claim 4 , wherein the unitary piece of material is aluminum. 8. The system for determining an effective wind speed of claim 4 , wherein the unitary piece of material and the conductor have a similar diameter. 9. The system for determining an effective wind speed of claim 4 , wherein the unitary piece of material has an aperture therethrough that extends from the exterior of the corresponding one of the first housing and the second housing to the cavity, the aperture being disposed along the longitudinal axis to be adjacent the circuit board, the aperture being configured to receive a fastener that abuts an area on the surface of the circuit board to secure the circuit board within the cavity. 10. The system for determining an effective wind speed of claim 1 , wherein each of the first housing and second housing is composed of first and second pieces of material configured to be longitudinal portions of an enclosure when secured together and to define the cavity when secured together, the enclosure having a first end extending away from the main housing and a second end that abuts the main housing and has an opening to the cavity. 11. The system for determining an effective wind speed of claim 10 , wherein the second end has a flange with at least one aperture for receiving a fastener for coupling the corresponding one of the longitudinal halves of the enclosure to the main housing. 12. The system for determining an effective wind speed of claim 10 , wherein at least one of the longitudinal portions of an enclosure is configured to have a plate affixed therein against which a circuit board is disposed for support within the cavity, the circuit board having, respectively, at least one of the heater and the first temperature sensor of the heated temperature-sensing element, and the second temperature sensor of the non-heated temperature-sensing element. 13. The system for determining an effective wind speed of claim 12 , wherein one of the longitudinal portions comprises a hole, and the plate comprises a hole, and the plate is disposed in the enclosure to align its hole with the hole in the longitudinal portion to receive a fastener and secure the circuit board to the plate. 14. The system for determining an effective wind speed of claim 10 , wherein the longitudinal portions of the enclosure are secured using at least one coupling mechanism selected from the group consisting of snap-fit, adhesive, pressure fit, bolting, and welding. 15. The system for determining an effective wind speed of claim 10 , wherein the first and second pieces of material are aluminum. 16. The system for determining an effective wind speed of claim 10 , wherein the enclosure is tubular. 17. The system for determining an effective wind speed of claim 10 , wherein the enclosure and the conductor have a similar diameter.