industrial building

Notes that with increasing air quality standards, requisite environmental protection cannot always be ensured with existing air handling installations in industrial halls. Presents methods of improving performance using devices to monitor pollutant levels and to give enhanced ventilation. Points to deficiencies still obtaining in these fields. Provides examples of new air quality evaluation methods and plant concepts, which have been tested in practice, to illustrate their the recommended approaches and their application.

Describes the network procedure for calculating the most energy-conserving and economical form of natural ventilation of a building. Provides application examples in the form of the determination of mass air flows through doors and windows and cracks in industrial work sheds. Provides the results of a calculation of crack ventilation in winter with mechanical ventilation with positive pressure, plus optimisation of air flow through a cooling bed for hot rolled steel sections.

Ventilation systems perform a number of tasks. They must remove contamination/pollution, they act as heat/cold transporters and they must create a satisfactory room climate without causing draughts. States that users must be aware of the limitations of ventilation systems and that ventilation systems are not able to carry out all tasks completely satisfactorily. Compares the efficiencies of displacement and mixing systems and gives guide values for temperature differences between room air and supply air for office and industrial applications.

This paper describes tracer gas measuring techniques that have been used to characterize ventilation and air infiltration in buildings, with an emphasis on recent developments and applications in large industrial and commercial structures. Fundamentals and applications are presented for both single andmultiple tracer gas methods. In addition to techniques suitable for detailed characterization of building airflows, procedures and equipment appropriate to surveying large numbers of buildings are also discussed.

Laboratories with chemical fume hoods can have HVAC systems designed for variable air volume (VAV) for the optimum in safety and cost savings. Various VAV designs are discussed with their associated advantages and disadvantages. Controls for providing VAV operation of fume hoods are outlined. A computer simulation of the energy usage for constant vs. variable volume hood operation is performed. The energy and cost savings are discussed along with a construction cost comparison of constant volume with variable volume.

The advancement of tracing techniques enabled the problems associated with local and general ventilation in industrial premises to be tackled with accuracy. The purpose of this article is to present, on the one hand, the various measurement techniques of helium tracing used by the CEA and the INRS and, on the other hand, to give some examples of application.