A gas-solid contacting system (100) with structured packing (108) is disclosed. The structured packing (108) comprises a gas header (102) with an inlet to receive a gas. A plurality of vertically aligned tubes (104) is fluidically connected to the gas header (102), wherein each vertically aligned tube (104) comprises openings (180) to distribute the gas at different heights in a radial direction. A structured packing element (106) is arranged on each vertically aligned tube (104), wherein the structured packing element (106) comprises one or more plates attached to the vertically aligned tube (104) to create a convoluted 3-dimensional flow path for smooth flow and radial distribution of a solid particulate stream.

A spacer array including a plurality of spacers. Each spacer defines a longitudinal axis and includes a main body, a leading pin, and a trailing pin. The main body has a main body cross-sectional dimension. The leading pin extends from the main body and is upstream of the main body. The leading pin has a leading pin cross-sectional dimension. The trailing pin extends from the main body and is downstream of the main body. The trailing pin has a trailing pin cross-sectional dimension. The main body cross-sectional dimension is greater than the leading pin cross-sectional dimension and the trailing pin cross-sectional dimension.

A volumetric media having an upstream end and a downstream end. The volumetric media includes one or more spacers and a packing material around the spacers. The packing material includes a foam. The packing material may include fine fibers disposed on at least a portion of the foam.

Disclosed herein are components, systems, and methods for oxidizing a waste gas to produce a flue gas. Embodiments of a regenerative oxidizer include a heat exchanger supported within a heat transfer chamber without the use of a coldface. The regenerative oxidizer may include an inlet into the heat transfer chamber that is laterally aligned with at least a portion of the heat exchanger. The heat exchanger includes a heat exchange block having at least one lateral passageway extending therethrough, and at least one vertical passageway extending through a top face of the heat exchange block, but is devoid of any vertical passageways extending through a bottom face of the heat exchange block.