Variable angle multi-point injection

What is claimed is: 1. A nozzle for injecting liquid comprising: a nozzle body defining a circuitous flow channel that circulates back on itself and a plurality of swirl ante-chambers each defined by a swirl chamber wall in fluid communication with the flow channel, with an injection point orifice defined in each swirl ante-chamber, wherein the flow channel feeds off-center into the swirl ante-chambers to impart a tangential flow component on fluids entering each swirl ante-chamber such that a majority of the fluid entering the swirl ante-chamber enters tangentially to the wall of each swirl ante-chamber to produce swirl in each swirl ante-chamber to generate swirl on a spray issuing from the injection point orifice of each swirl ante-chamber, wherein all of the swirl ante-chambers feed tangentially off of the same, common circuitous flow channel. 2. A nozzle as recited in claim 1 , further comprising a backing member mounted to the nozzle body, the backing member including a fluid inlet chamber and having one or more flow passages defined through the backing member for fluid communication from the fluid inlet chamber of the backing member to the flow channel of the nozzle body, wherein the one or more flow passages are angled to impart a direction on flow into the flow channel. 3. A nozzle as recited in claim 1 , wherein the flow channel is a first flow channel and further comprising a second flow channel in fluid communication with the swirl ante-chamber, wherein the second flow channel feeds into the swirl ante-chamber to impart a tangential flow component on fluids entering the swirl ante-chamber, wherein the first flow channel, second flow channel, and swirl ante-chamber are configured and adapted to adjust spray angle of a spray issuing from the injection point orifice by varying flow apportionment among the first and second flow channels. 4. A nozzle as recited in claim 3 , wherein the second flow channel feeds into the swirl ante-chamber to impart a counter-swirling tangential flow component on fluids entering the swirl ante-chamber in opposition to the tangential flow component of the first flow channel. 5. A nozzle as recited in claim 3 , wherein the second flow channel feeds into the swirl ante-chamber to impart a co-swirling tangential flow component on fluids entering the swirl ante-chamber in cooperation with the tangential flow component of the first flow channel. 6. A nozzle as recited in claim 3 , further comprising a backing member mounted to the nozzle body, the backing member including a first fluid inlet chamber having one or more flow passages defined through the backing member for fluid communication from the first fluid inlet chamber of the backing member to the first flow channel of the nozzle body, and a second fluid inlet chamber having one or more flow passages defined through the backing member for fluid communication from the second fluid inlet chamber of the backing member to the second flow channel of the nozzle body to change spray angle of the injection point orifice by apportionment of flow between the first and second fluid inlet chambers of the backing member. 7. A nozzle as recited in claim 6 , wherein the one or more flow passages of the first fluid inlet chamber and the one or more flow passages of the second fluid inlet chamber are angled for co-swirling flow in the swirl ante-chamber. 8. A nozzle as recited in claim 6 , wherein the one or more flow passages of the first fluid inlet chamber and the one or more flow passages of the second fluid inlet chamber are angled for counter-swirling flow in the swirl ante-chamber. 9. A nozzle as recited in claim 1 , further comprising one or more air assist circuits for air assist atomization of spray from the injection point orifices. 10. A nozzle as recited in claim 9 , wherein one air assist circuit is defined by an air inlet extending inside each swirl ante-chamber. 11. A nozzle as recited in claim 10 , wherein a prefilmer is formed between the air inlet and a prefilming surface of each swirl ante-chamber. 12. A nozzle as recited in claim 1 , further comprising a prefilmer positioned downstream of each injection point orifice, configured and adapted for prefilming impingement of spray from the injection point orifice. 13. A nozzle as recited in claim 3 , further comprising additional swirl antechambers, each having a separate injection point orifice, each swirl ante-chamber being in fluid communication with the first and second flow channels. 14. A nozzle as recited in claim 13 , wherein the swirl ante-chambers are aligned in line with one another. 15. A nozzle as recited in claim 13 , further comprising a second plurality of swirl ante-chambers and corresponding injection point orifices in fluid communication with the second flow channel, and further comprising a third flow channel in fluid communication with the second plurality of swirl ante-chambers for separate spray angle control of the first and second pluralities of swirl ante-chambers. 16. A nozzle as recited in claim 3 , wherein each flow channel includes one or more swirl slots for receiving liquid and imparting a direction on flow of the liquid in the respective flow channel.