Emissions cleaning module

The invention claimed is: 1. An emissions cleaning module comprising: a flow conduit having an upstream end fluidly connected to a source of exhaust fluid, a bend, and a downstream end fluidly connected to a mixer module; an injector module having an outlet orientated to inject an injection fluid into the flow conduit upstream of the mixer module, the injector module outlet being located on the outer side of the bend; and a low pressure cavity fluidly connected to the flow conduit or mixer module by an open mouth located on an outer side of the bend downstream of the injector module outlet, the open mouth being orientated such that, in use, a flow of exhaust fluid along the flow conduit flows over the open mouth thereby creating a pressure reduction within the low pressure cavity. 2. An emissions cleaning module as claimed in claim 1 wherein the low pressure cavity is located between the injector module outlet and the mixer module. 3. An emissions cleaning module as claimed in claim 1 wherein the bend extends through at least 90°. 4. An emissions cleaning module as claimed in claim 1 wherein the upstream end fluidly connected to a source of exhaust fluid comprises a flow hood. 5. An emissions cleaning module as claimed in claim 4 further comprising a support which supports the flow hood and the mixer module. 6. An emissions cleaning module as claimed in claim 5 wherein the support fluidly connects the flow hood to the mixer module. 7. An emissions cleaning module as claimed in claim 5 wherein the flow hood is coupled to a first side of the support and the mixer module is coupled to a second side of the support. 8. An emissions cleaning module as claimed in claim 5 wherein the low pressure cavity is at least partly formed by the support. 9. An emissions cleaning module as claimed in claim 8 wherein the support comprises a bore through which may pass, in use, the flow of exhaust fluid, and the low pressure cavity is at least partly formed by a localised enlargement of the bore. 10. An emissions cleaning module as claimed in claim 8 wherein the low pressure cavity is formed by an inter-engagement of the support and the flow hood. 11. An emissions cleaning module as claimed in claim 10 wherein the low pressure cavity is formed by a recess in the support and a flange of the flow hood, wherein the flange at least partly overlies the recess. 12. An emissions cleaning module as claimed claim 4 wherein the injector module is mounted to the flow hood. 13. An emissions cleaning module as claimed in claim 12 wherein the injector module outlet is directed along a longitudinal axis of the mixer module. 14. An emissions cleaning module as claimed in claim 1 wherein the injector module is a urea or ammonia injector. 15. A method of injecting an injection fluid into a flow of exhaust fluid, comprising the steps of: setting up a flow of exhaust fluid, through a conduit, from an upstream source through a bend in the conduit to a downstream mixer module; injecting from an outer side of the bend into the flow of exhaust fluid an injection fluid at an injection location; and creating a low pressure region in the flow of exhaust fluid along the outer side of the bend downstream of the injection location; wherein the low pressure region is created on the outer side of the bend by flowing the flow of exhaust fluid across an open mouth of a low pressure cavity fluidly connected to the flow conduit or mixer module downstream the injection location. 16. A method as claimed in claim 15 wherein the low pressure cavity is located between the injection location and the mixer module.