Chemical testing

What is claimed is: 1. A method of dosing central heating system water with an inhibitor chemical, the method comprising the steps of: providing a dosing device, the dosing device including a fitment for permanently attaching the dosing device into a central heating system circuit, a chemical reservoir, a passageway in the fitment between the central heating system circuit and the chemical reservoir, a valve in the passageway, and a means for introducing chemical from the chemical reservoir into the central heating system circuit in response to an electronic signal, providing a testing device for testing central heating system water for inhibitor concentration, the testing device including a sample chamber for holding a sample of system water during testing, and a flow passage provided between the sample chamber and the central heating system circuit for allowing water to pass from the central heating system circuit into the sample chamber and back again from the sample chamber into the central heating system circuit, using the testing device to test central heating system water for the inhibitor concentration at time of sampling in a process which includes drawing a sample of water from the central heating system circuit into the sample chamber, testing the sample for the inhibitor concentration, and then emptying the sample chamber by returning the sample to the central heating system circuit, and if the inhibitor concentration at the time of sampling is insufficient, sending an electronic signal from the testing device to the dosing device, to cause the dosing device to dose the central heating system with inhibitor. 2. The method of claim 1 , wherein the chemical reservoir is in the form of a syringe. 3. The method of claim 2 , wherein the syringe has a piston which is extended into the syringe body by operation of an electric motor. 4. The method of claim 1 , wherein the valve is a one-way check valve arranged to allow fluid to flow from the reservoir to the central heating system circuit, but not from the central heating system circuit to the reservoir. 5. The method of claim 1 , wherein the reservoir is provided in the form of a pressurized canister. 6. The method of claim 5 , wherein the valve is a motorized valve, which is opened for a period of time in response to the electronic signal, to cause fluid to flow from the pressurized reservoir into the central heating system circuit. 7. The method of claim 5 , wherein the pressurized canister includes a nozzle having a push-to-open valve. 8. The method of claim 7 , wherein an actuator is provided, the actuator being arranged to push the canister against a seat on the entrance to the passageway, to open the push-to-open valve on the nozzle of the canister, in response to the electronic signal. 9. The method of claim 1 , wherein the testing device comprises: a sample chamber for holding a sample of central heating system water to be tested, the sample chamber being connected to the central heating system circuit to allow fluid to pass between the central heating system circuit and the sample chamber; means for controlling filling of the sample chamber with central heating system water from the central heating system circuit, and emptying of the sample chamber; at least one valve for isolating the sample of central heating system water from the central heating system circuit during testing; and optical testing apparatus including a light source and a detector, for measuring an optical property of the sample of central heating system water isolated within the sample chamber and thereby making a determination as to whether or not the level of the selected chemical in the water is greater than a predetermined threshold level. 10. The method of claim 9 , wherein the testing device and the dosing device share a single fitment for connection to a central heating system circuit. 11. A combination automatic testing and dosing device, comprising: a dosing device including a fitment for permanently attaching the dosing device into a central heating system circuit, a chemical reservoir, a passageway in the fitment between the central heating system circuit and the chemical reservoir, a valve in the passageway, and a means for introducing chemical from the chemical reservoir into the central heating system circuit in response to an electronic signal, and a testing device including a sample chamber for holding a sample of system water during testing, and a flow passage provided between the sample chamber and the central heating system circuit for allowing water to pass from the central heating system circuit into the sample chamber and back again from the sample chamber into the central heating system circuit, wherein the testing device is adapted to test central heating system water for inhibitor concentration at time of sampling in a process which includes drawing a sample of water from the central heating system circuit into the sample chamber, testing the sample for the inhibitor concentration, and then emptying the sample chamber and returning the sample to the central heating system circuit, and wherein the combination automatic testing and dosing device is adapted to automatically dose the central heating system with inhibitor if on testing by the testing device the concentration of inhibitor is found to be insufficient. 12. The combination automatic testing and dosing device of claim 11 , wherein the chemical reservoir is in the form of a syringe. 13. The combination automatic testing and dosing device of claim 12 , wherein the syringe has a piston which is extended into the syringe body by operation of an electric motor. 14. The combination automatic testing and dosing device of claim 11 , wherein the valve is a one-way check valve arranged to allow fluid to flow from the reservoir to the central heating system circuit, but not from the central heating system circuit to the reservoir. 15. The combination automatic testing and dosing device of claim 11 , wherein the reservoir is provided in the form of a pressurized canister. 16. The combination automatic testing and dosing device of claim 15 , wherein the valve is a motorized valve, which is opened for a period of time in response to the electronic signal, to cause fluid to flow from the pressurized reservoir into the central heating system. 17. The combination automatic testing and dosing device of claim 15 , wherein the pressurized canister includes a nozzle having a push-to-open valve. 18. The combination automatic testing and dosing device of claim 17 , wherein an actuator is provided, the actuator being arranged to push the canister against a seat on the entrance to the passageway, to open the push-to-open valve on the nozzle of the canister, in response to the electronic signal. 19. The combination automatic testing and dosing device of claim 11 , wherein the testing device comprises: a sample chamber for holding a sample of central heating system water to be tested, the sample chamber being connected to the central heating system circuit to allow fluid to pass between the central heating system circuit and the sample chamber; means for controlling filling of the sample chamber with central heating system water from the central heating system circuit, and emptying of the sample chamber; at least one valve for isolating the sample of central heating system water from the central heating system circuit during testing; and optical testing apparatus including a light source and a detector, for measuring an optical property of the