Heat recovery and demand ventilationsystem

1. In combination with a building structure includinga room with a maximum occupancy rating of at least twenty people per 1,000 sq. ft of occupied space,an air conditioning system includinga heat transfer coil,a first section of duct (D40) leading to the heat transfer coil to direct supply air from the building structure over the coil, anda second section of duct (D20) leading away from the heat transfer coil to carry air from the coil back into the building, the improvements in the building structure comprising(a) a ventilation control unit attached to the first section of duct and including(i) a housing (230),(ii) a heat exchange unit (120),(iii) a third section of duct (D10) connected to said first section of duct (D40) to direct a first portion of return air from the room into said first section of duct,(iv) a fourth section of duct (D30) to direct a second portion of return air from the room over said heat exchange unit,(v) a fifth section of duct (D50) to direct ambient airover said heat exchange unit into said third section of duct (D10), said heat exchange unit maintaining said second portion of return air separate from said ambient air and transferring heat between said second portion of return air and said ambient air, and directly to said third section of duct (D10) by bypassing said heat exchange unit,(vi) a sixth section of duct (D60) to direct said second portion of return air from said heat exchange unit into the outside atmosphere,(vii) an outlet damper assembly (160) controlling the flow of said second portion of return air over said heat exchange unit (120) and into the outside atmosphere,(viii) a generally semi-cylindrical inlet damper assembly controlling the flow of said ambient air into said ventilation control unit and including a member (38, 1150) rotatable between at least three operative positions,a first operative position directing ambient air only over said heat exchange unit (120),a second operative position bypassing said heat exchange unit and directing ambient air only directly to said third section of duct (D10) to combine with said first portion of return air, anda third operative position preventing said ambient air from flowing to said heat exchange unit and to said third section of duct (D10) to combine with said first portion of return air,(ix) a control unit operatively associated with said inlet and outlet damper assemblies to control the rate of flow of said ambient air and said second portion of said return air, respectively, through said inlet and outlet damper assemblies,(x) a first flow sensor operatively associated with said inlet damper assembly to generate signals to said control unit representing the rate of flow of ambient air through said inlet damper assembly,(ix) a second flow sensor operatively associated with said outlet damper assembly to generate signals to said control unit representing the rate of flow of said second return air portion through said outlet damper assembly,(x) a CO2 sensor in the room to generate signals to said control unit representing the concentration of CO2 in the air in the room;

• (b) a first fan to direct said ambient air into said fifth section of duct, over said heat exchanger, and into said first section of duct;
  
  (c) a second fan to direct said second portion of return air from said fourth section of duct, and through said fourth section of duct over said heat exchanger, and into the atmosphere;
  
  (d) a control algorithm in said control unit to calculate, at stepped spaced apart increasing room ventilation rates, increasing CO2 concentrations in the air in the room that are below a maximum desired CO2 concentration in the room.