Abstract: Dehumidifiers with improved airflow and fluid management features are disclosed herein. A dehumidifier configured in accordance with a particular embodiment includes a housing, a moisture removal component, and an airflow director. The housing at least partially defines an airflow path extending therethrough. The moisture removal component is positioned within the housing along a portion of the airflow path, and the airflow path enters the moisture removal component in a first direction. The airflow director adjacent to the moisture removal component extends in a plane that is generally parallel to the first direction.

Abstract: Methods, systems, and apparatuses directed to determining the performance of a dehumidifier are disclosed herein. A method of determining dehumidifier performance configured in accordance with one embodiment includes determining an inlet humidity value for airflow entering the dehumidifier, and determining an outlet humidity value for airflow exiting the dehumidifier. The outlet humidity value is determined based at least in part on an efficiency or correction factor for the dehumidifier. The method further includes comparing the inlet humidity value with the outlet humidity value to determine the amount of moisture that the dehumidifier is removing for the air.

Abstract: A dehumidification system for removing moisture from the air within a structure comprises a refrigerant system and a heat transfer system. The refrigerant system comprises a condenser section and an evaporator section. The heat transfer system comprises a first coil and a second coil. A primary air path extends through the first coil, the evaporator section, and the second coil. A secondary air path extends through the condenser section.

Abstract: Methods, systems, and apparatuses directed to determining the performance of a dehumidifier are disclosed herein. A method of determining dehumidifier performance configured in accordance with one embodiment includes determining an inlet humidity value for airflow entering the dehumidifier, and determining an outlet humidity value for airflow exiting the dehumidifier. The outlet humidity value is determined based at least in part on an efficiency or correction factor for the dehumidifier. The method further includes comparing the inlet humidity value with the outlet humidity value to determine the amount of moisture that the dehumidifier is removing for the air.

Abstract: A dehumidification system for removing moisture from the air within a structure comprises a refrigerant system and a heat transfer system. The refrigerant system comprises a condenser section and an evaporator section. The heat transfer system comprises a first coil and a second coil. A primary air path extends through the first coil, the evaporator section, and the second coil. A secondary air path extends through the condenser section.

Abstract: An extractor tool for extracting invasive fluid from a floor covering defining a floor surface. The extractor tool comprises a frame assembly, an extraction head, and a drive roller. The frame assembly defines a support surface. The extraction head is mounted to the frame assembly and defines an extraction opening that engages the floor surface. The drive roller assembly is mounted to the frame assembly and also engages the floor surface. A user stands on the support surface between the extraction head and the drive roller assembly such that the user's weight is transferred to the floor surface through the extraction head and the driver roller assembly. The user operates the driver roller assembly to propel the extractor tool along the floor surface.

Abstract: Apparatus for drying damp carpet and carpeting materials is disclosed. The apparatus includes a blower (22) for blowing air under the carpet, and a clamp (24) affixed to the blower (22), for securing the carpet to the blower (22). The blower (22) includes a blower housing (26) with a head (28) having air intake openings (32) and a sleeve (30) that forms an air outlet opening (36); and a powered fan (34) attached within the head (28) of the blower housing (26) for blowing air out of the sleeve opening (36). The clamp (24) comprises a mounting bracket (44) affixed to the blower housing (26), a rod (46) slidably coupled to the mounting bracket (44) and a restraint mechanism (54) for preventing the rod (46) from sliding upward away from the carpet. The restraint mechanism (54) is attached to the mounting bracket (44). The clamp (24) also includes a foot ( 48) attached at the lower end of the rod (46) for holding the carpet against the sleeve (30) of the blower housing (26).