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    Denver Builds Wastes Treatment Plant

    New search for: Ombruni, P.R.

    Primary treatment capacity is 27 mgd, to treat raw waste from Clear Creek and Sand Creek Basins; secondary capacity is 117 mgd, to treat all primary effluents, plus effluent from Denver's existing primary plant; facilities employ activated sludge process, followed by secondary sedimentation and chlorination; 14 buildings are all faced with precast aggregate panels with porcelain trim; total of 5500 uplift piles were used to anchor all deep structures; Critical Path Method was employed in engineering design office to schedule and facilitate design; because of high ground-water table, uplift piles were used to prevent structures from floating.

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    Denver Builds Wastes Treatment Plant

    New search for: Ombruni, P.R.

    Primary treatment capacity is 27 mgd, to treat raw waste from Clear Creek and Sand Creek Basins; secondary capacity is 117 mgd, to treat all primary effluents, plus effluent from Denver's existing primary plant; facilities employ activated sludge process, followed by secondary sedimentation and chlorination; 14 buildings are all faced with precast aggregate panels with porcelain trim; total of 5500 uplift piles were used to anchor all deep structures; Critical Path Method was employed in engineering design office to schedule and facilitate design; because of high ground-water table, uplift piles were used to prevent structures from floating.

    Access

    Access via TIB
    Check availability in my library

    Denver Builds Wastes Treatment Plant

    New search for: Ombruni, P.R.

    Primary treatment capacity is 27 mgd, to treat raw waste from Clear Creek and Sand Creek Basins; secondary capacity is 117 mgd, to treat all primary effluents, plus effluent from Denver's existing primary plant; facilities employ activated sludge process, followed by secondary sedimentation and chlorination; 14 buildings are all faced with precast aggregate panels with porcelain trim; total of 5500 uplift piles were used to anchor all deep structures; Critical Path Method was employed in engineering design office to schedule and facilitate design; because of high ground-water table, uplift piles were used to prevent structures from floating.

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    Access via TIB
    Check availability in my library

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    Document information
    Title:

    Denver Builds Wastes Treatment Plant

    Additional title:

    Water Wastes Eng

    Contributors:

    Ombruni, P.R. (author)

    Published in:

    Water and Wastes Engineering ; 5

    Publication date:

    1968

    Size:

    4 pages

    Type of media:

    Article (Journal)

    Type of material:

    Print

    Language:

    English

    Keywords:

    Sewage treatment plants

    © Metadata Copyright Elsevier B. V. All rights reserved.

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