Abstract: Multiple-zone chilled beam air conditioning systems for cooling multiple-zone spaces, methods of controlling chilled beams in multi-zone air conditioning systems, and chilled-beam modules for controlling zones of a chilled-beam heating and air conditioning system. Embodiments include a pump serving each zone that both recirculates water within the module and chilled beam and circulates water in and out of a chilled water distribution system through one or more valves to control the temperature of the water delivered to the chilled beams. Different embodiments adjust the temperature of the beam to avoid condensation, change pump speed to save energy or increase capacity, provide heating as well as cooling, use check valves to reduce the number of control valves required, can be used in two- or four-pipe systems, or a combination thereof.

Abstract: Multiple-zone chilled beam air conditioning systems for cooling multiple-zone spaces, methods of controlling chilled beams in multi-zone air conditioning systems, and chilled-beam modules for controlling zones of a chilled-beam heating and air conditioning system. Embodiments include a pump serving each zone that both recirculates water within the module and chilled beam and circulates water in and out of a chilled water distribution system through one or more valves to control the temperature of the wafer delivered to the chilled beams. Different embodiments adjust the temperature of the beam to avoid condensation, change pump speed to save energy or increase capacity, provide heating as well as cooling, use check valves to reduce the number of control valves required, can be used in two- or four-pipe systems, or a combination thereof.

Abstract: Multiple-zone chilled beam air conditioning systems for cooling multiple-zone spaces, methods of controlling chilled beams in multi-zone air conditioning systems, and chilled-beam pump modules for controlling zones of a chilled-beam heating and air conditioning system. Embodiments include a pump serving each zone that both recirculates water within the module and chilled beam and circulates water in and out of a chilled water distribution system through one or more valves to control the temperature of the water delivered to the chilled beams. Different embodiments adjust the temperature of the beam to avoid condensation, change pump speed to save energy or increase capacity, provide heating as well as cooling, use check valves to reduce the number of control valves required, can be used in two- or four-pipe systems, or a combination thereof.

Abstract: Chilled-beam zone pump modules for controlling zones of a chilled-beam heating and air conditioning system, multiple-zone chilled beam air conditioning systems for cooling multiple-zone spaces, and methods of controlling chilled beams in multi-zone air conditioning systems. Embodiments include a pump serving each zone that both recirculates water within the module and chilled beam and circulates water in and out of a chilled or warm water distribution system through valves to control temperature. Different embodiments provide heating as well as cooling, use check valves to reduce the number of control valves required, adjust the temperature of the beam to avoid condensation, change pump speed to save energy or increase capacity, can be used in two- or four-pipe systems, allow for lower installation cost, provide better performance or control, improve reliability, overcome barriers to the use of chilled beams, or a combination thereof.

Abstract: Chilled-beam zone pump modules for controlling zones of a chilled-beam heating and air conditioning system, multiple-zone chilled beam air conditioning systems for cooling multiple-zone spaces, and methods of controlling chilled beams in multi-zone air conditioning systems. Embodiments include a pump serving each zone that both recirculates water within the module and chilled beam and circulates water in and out of a chilled or warm water distribution system through valves to control the temperature of the water delivered to the chilled beams. Different embodiments provide heating as well as cooling, use check valves to reduce the number of control valves required, adjust the temperature of the beam to avoid condensation, change pump speed to save energy or increase capacity, can be used in two- or four-pipe systems, or a combination thereof.

Abstract: Desiccant-coated substrates, regeneratable rotary dehumidification wheels and other devices for gas (e.g., air) treatment using those substrates, and processes for making them are disclosed. The substrates may have coatings in thicknesses of from about 2 to about 10 mils containing particles of one or more adsorbent desiccants and an organic water-based binder. The desiccant particles retain a high fraction of their original adsorption capacity because the pores of the desiccant particles contain a pore-clearing agent prior to the binder setting and the pore-clearing agent leaves the pores during the manufacturing process to prevent the binder from blocking the pores. In preferred embodiments a mixture of different desiccants is used and a particle suspending agent keeps the particles well-mixed so that the desiccant particles in the coated substrate will be as well-mixed as possible. The suspending agent may also function as the pore-clearing agent.