Subsea fortified zone module

What is claimed is: 1. A system for conveying fluids at an underwater subsea location, comprising: a high-integrity pressure protection system (HIPPS) supplying fluid positioned at the underwater subsea location; a module positioned at the underwater subsea location and connected to the HIPPS, the module receiving the fluids into a flow line formed of plurality of linear sections, wherein at least two linear sections are geometrically parallel, the at least two linear sections connected to and supported by at least two axially spaced-apart plates, the flow line being shaped to reverse flow in the module a plurality of times, wherein the flow line conforms to a flow pattern that reverses flow along non-parallel planes; an outlet connected to the flow line; and a subsea production system positioned at the underwater subsea location and connected to the module via the outlet and receiving the fluids from the flow line. 2. The system of claim 1 wherein the flow line communicates fluid between the inlet and the outlet in a hydraulically serial fashion. 3. The system of claim 1 , wherein the flow line includes a plurality of bends reversing the flow of fluids in adjacent linear sections. 4. The system of claim 1 , further comprising a plurality of stacks of linear sections, wherein all of the plurality of stacks of linear sections are connected to and supported by at least two axially space-apart plates. 5. A method for conveying fluids at an underwater subsea location, comprising: positioning a module at the underwater subsea location, the module having a flow line for flowing fluids in a serial fashion from a single inlet to a single outlet, the flow line being shaped to reverse flow of the fluids a plurality of times along each plane of a plurality of planes, and wherein the flow line conforms to a flow pattern that reverses flow along non-parallel planes; and flowing fluids from a high-integrity pressure protection system (HIPPS) to a subsea production system via the module. 6. The method of claim 5 , further comprising: assembling the module at a land facility before positioning the module at the underwater subsea location. 7. The method of claim 5 , further comprising: testing pressure integrity of the module at a land facility before positioning the module at the underwater subsea location. 8. A system for conveying fluids at a subsea location, comprising: a module positioned at the subsea location and having a flow line flowing fluids in a serial fashion from a single inlet to a single outlet, the flow line being shaped to reverse flow of the fluids a plurality of times along each plane of a plurality of planes, wherein the plurality of planes are geometrically parallel to one another; the flow line includes a plurality of stacks of linear sections, each stack being aligned with at least one plane of the plurality of planes; the flow line includes a plurality of U-shaped bends, each U-shaped bend flowing fluids from one of: (i) between linear sections of one stack, and (ii) between stacks of linear sections; and the module defines a volume and the fluid line flows fluid along a plurality of non-parallel planes in the volume, wherein the plurality of stacks of linear sections are connected to and supported by at least two axially spaced-apart plates; a frame to which all of the stacks of linear sections are connected; and a high-integrity pressure protection system connected to the module; and a subsea production system connected to the module.