A combination of components is provided for use in making asphalt concrete from a plurality of aggregate material streams. The combination includes an indirect dryer for heating aggregate material from a first material stream without directly exposing said first stream material to hot gases of combustion. The combination also includes a mixer for mixing aggregate material from the first material stream, aggregate material that has not been heated in the indirect dryer from a second material stream, and a binder component to produce asphalt concrete.

A method of treating a material to recover an oil from the material comprises heating the material to evaporate the oil, removing gas phase fluids from the material, and separating the oil from the gas phase fluids removed from the material, wherein the method includes mixing hot vapour with the material. The material being treated in the chamber is heated by friction within the chamber generated by a rotating shaft and flail. Injection of hot vapour improves the efficiency of the process to separate oil and any other evaporable liquids at lower temperatures. The thermal energy generated within the chamber is not consumed in changing the phase of large quantities of liquids in the material, and more of the energy generated is available to heat up the material and evaporate the oil fractions from the solids.

A method of treating a material to recover an oil from the material comprises heating the material to evaporate the oil, removing gas phase fluids from the material, and separating the oil from the gas phase fluids removed from the material, wherein the method includes mixing hot vapour with the material. The material being treated in the chamber is heated by friction within the chamber generated by a rotating shaft and flail. Injection of hot vapour improves the efficiency of the process to separate oil and any other evaporable liquids at lower temperatures. The thermal energy generated within the chamber is not consumed in changing the phase of large quantities of liquids in the material, and more of the energy generated is available to heat up the material and evaporate the oil fractions from the solids.

A turbulence bar assembly for a cylinder that extends in an axial direction includes a plurality of bars that extend in the axial direction and at least one hoop. The at least one hoop has one or more hoop segments that are connected to the plurality of bars and one or more couplers that are in engagement with the one or more hoop segments to expand and contract a radial dimension of the at least one hoop in response to movement of an adjustment block in the axial direction.

A present invention relates to a fabric treating apparatus including an inside cabinet which forms a treating chamber which the fabrics treated in, and a heating unit for supplying any one between hot wind and steam to the treating chamber, and a hanger rack disposed in the treating chamber, and a driving unit for generating rotary power outside the treating chamber and is disposed upper part of the inside cabinet, and a transmission unit for reciprocating the hanger rack by transmitting the rotary power of the driving unit.

A present invention relates to a fabric treating apparatus including an inside cabinet which forms a treating chamber which the fabrics treated in, and a heating unit for supplying any one between hot wind and steam to the treating chamber, and a hanger rack disposed in the treating chamber, and a driving unit for generating rotary power outside the treating chamber and is disposed upper part of the inside cabinet, and a transmission unit for reciprocating the hanger rack by transmitting the rotary power of the driving unit.