Auxilliary ventilation system final ppt.pptx

Installation of auxiliary ventilation system &DUCT LEAKAGE SUBMITTED BY- 23152021-Nitesh Ku. Shah SUBMITTED TO - Dr. Tarun Verma DEPARTMENT OF MINING ENGINEERING

CONTENTS Introduction Installation Equipment selection & Design procedures What is duct & its type Reason for leakage of duct Installation practices Design and operational considerations Consequences Preventive measures References

INTRODUCTION An auxiliary fan is used in the mines for the ventilation of development headings, for narrow workings in coal and for stone drifts which are carried in advance of the normal ventilating current. Axial flow fans are better than centrifugal fans for auxiliary ventilation. Install the fan to avoid air recirculation. Installation should be a sufficient distance outside the actual heading it is intended to ventilate.

INSTALLATION Here are some tips for installing auxiliary ventilation systems : The forcing fan should be placed on the intake side, while the auxiliary exhausting fan should be on the return side of the drift. The minimum distance between the fan and the corner of the drift road to be ventilated should be 5 meters.

Cont… For 90-degree bends, a spiral duct must be used. Use cables or wires to hang flexible ducting straight at the back, using eyebolts, pins, or bolts. Ensure maintenance of ducting condition . Small auxiliary fans usually don't have volume control to keep them light, but big ones might have inlet vanes or dampers to adjust airflow.

Cont… Metal parts of an auxiliary fan setup must be grounded to prevent sparks that could ignite methane. The air flow needed from an auxiliary fan depends on gas emissions. Generally, it should be about 7m³ per minute per square meter of the working face. Auxiliary ventilators are smaller than boosters and are used in mines for shafts, tunnels, and narrow spaces where bratticing isn't possible.

EQUIPMENT SELECTION When selecting fans and ducts for an auxiliary ventilation system, designers must consider key factors, like: 1. Compliance with Company and Government Regulations for Fan Systems • Ensure fan follows company and government rules. • Consider noise levels and state/federal laws. • Consider potential gas presence in the area. • Noise from fans can affect work efficiency. • Use equipment to reduce noise to meet rules or laws.

Cont… 2. Efficiency of the System: Auxiliary fans need power which raises ventilation costs. So, continuous use needs efficient fans; pricier but efficient ones are worth it. Duct type matters for energy efficiency. 3. Standardization of Equipment: Mine wants consistent ducts and fans for simpler inventory and designs. It also helps to ensure that equipment and spare parts are available when needed.

Cont… 4. Interface with Other Ventilation Circuits in the Mine: Designer must consider how extra fans affect mine airflow. They might add doors or other controls for proper ventilation, whether fans are on or off. 5. Leakage, Return Air, and Compressibility Considerations: For longer ventilation pipes, consider leaks, air loss, and tube compression. Short pipes usually ignore these, but they matter for longer ones.

DESIGN PROCEDURES Step 1 - Air leakage estimations: Leakage may be assumed to range between 20% and 30%. Calculate the flow required at the fan using: Qfan = Qface /(1 - leakage ). Step 2 - Ventilation system selection: Selection based on heading type, length, cross-sectional area, development method, re-entry times, and cost. - Step 3 - Airflow resistance calculations: The contribution of each component of the column to the head loss must be determined. Atkinson's equation can be used to estimate the friction head loss in the duct.

Cont… - Step 4 – Fan sizing: Fan curves analyzed to match head and flow requirements. Selection based on total pressure, determining blade pitch and motor size.

WHAT IS DUCT In underground mine ventilation, ducts are pathways for airflow. They distribute fresh air and remove harmful gases and dust. Ducts are made of durable materials and require regular maintenance. They play a crucial role in keeping miners safe and maintaining air quality underground.

TYPES OF DUCT Two types of duct are commonly used, the flexible ducts and the rigid ducts Flexible Ducts Flexible ducting is much easier to store, transport and install than rigid ducting. They are cheaper in initial cost, but have shorter life. Earlier, flexible ducting was made from rubberized cotton fabric, but this material was inflammable and was easily torn . Now, flexible ducting may be made from terylene , rayon or nylon coated with P.VC

Cont… They are conveniently used in shorter headings up to a distance of 300m. Flexible ducts are very suitable in curved Headings.

Cont…. Rigid Ducts Rigid ducts of round section are commonly used for all permanent installations . They can be made of steel, aluminium , plywood, fibre -glass-reinforced plastic or high- density polythene. Aluminum ducts are lightweight and smooth but costly, prone to damage, and less suitable for mines due to their D-shape. Steel ducts are favored in mines and tunnels for their durability and longevity, serving as a preferred permanent solution

Fig. Rigid Duct Steel rigid duct

REASON FOR LEAKAGE OF DUCT Damage : Ducts can get holes or cracks from wear and tear, corrosion, or impacts. Poor Installation : If ducts aren't installed well or sealed properly, they're more likely to leak. High Pressure: Underground conditions, like high pressure from ventilation systems, can stress ducts, causing leaks. Ground Movements: Shifting ground can put strain on ducts, leading to damage and leaks. Lack of Maintenance: If ducts aren't regularly checked and fixed, small issues can become big leaks over time.

FACTORS Leakage of air from ducting is affected by the following factors: Ducting material characteristics Quality of installation Number of joints Total length of ducting Pressure differences between the inside and outside of the ducting Diameter of the ducting

INSTALLATION PRACTICES Tube Installation and Maintenance in Mines Importance of proper installation and maintenance for system efficiency. Leakage should not exceed 10% of initial flow volume. Poor installation and maintenance practices can lead to leakage above 50%. Installation procedures include hanging support cable and tubing straight and tight. Use of fan adaptors to connect duct to fan to prevent leakage.

Cont… - Duct couplings, tight clamps and clips are used to assure good duct connection and avoid leakage. - Flexible ducts hang from hooks on messenger cables, while steel ducts use chains. Hooks can also attach directly to bolts, straps, and screens for support. - To prevent damage from mobile equipment, suspend ducting as high as possible against the back, especially at intersections and low-laying areas.

DESIGN AND OPERATIONAL CONSIDERATIONS Fan Installation and Operational Aspects Fan installation should ensure sufficient air supply to prevent recirculation. Fan installation should prevent contamination of air with toxic fumes and dust. Fan's capacity should not exceed half of the air passing in the airway where it is installed. When installing fans in series, a gap of approximately 15 cm is common to prevent column collapse.

Cont… Sizing the ventilation column should consider drift size and equipment size. Fans should be turned off during blasting to prevent impeller blade damage.

CONSEQUENCES Safety Hazard: Leakage can accumulate harmful gases like methane, carbon monoxide, or dust particles, it is unsafe for miners' health. Reduced Efficiency: Leakage can compromise ventilation system effectiveness, affecting airflow distribution and removing contaminants. Increased Energy Costs: Leaks in ducts increase energy consumption and operational costs. Environmental Impact: Leaked substances may have environmental consequences outside the mine, especially if released into the atmosphere or nearby water sources.

PREVENTIVE MEASURE Regular Checks : Check ducts often for holes. Fix Leaks Promptly : Seal any holes found. Use Good Materials : Use strong materials for ducts. Monitor Systems : Keep an eye on ducts for leaks. Train Staff : Teach workers to spot and report leaks. Emergency Plans : Have plans ready for leaks or system failures.

Example Problem:- In an underground mine, a ventilation duct with a diameter of 1 meter has developed a leak of 0.02 square meters in area. The airflow velocity in the duct is 5 m/s. Calculate the volume of air lost per second due to this leak, and also find actual quantity of duct deliver. Solution:-

Cont…. let's find the volume of air lost per second due to the leak: Volume of air lost per second through the leak ( Vloss ): Given that the leak area is 0.02 square meters, and the airflow velocity is 5 m/s, we can calculate the volume of air lost per second through the leak using the formula: So Actual quantity of duct deliverable is 3.927-0.1=3.827

REFERENCES Elements of mining and technology: by D.J.Deshmukh Mine ventilation and air conditioning: by Howard L. Hartman Mine Environment and ventilation: by G.B. mishra Auxiliary ventilation operation practices E. De Souza Department of Mining Engineering, Queen’s University, Kingston, Canada . A Comparison of Air Leakage Prediction Techniques for Auxiliary Ventilation Ducting Systems A.D.S. Gillies and H.W.Wu University of Queensland, Brisbane ZLD 4072, Australia.

Thank You!

Auxilliary ventilation system final ppt.pptx

About This Presentation

Slide Content

Tags

Categories

Download

Quick Actions

Statistics

Related Slideshows

Auxilliary ventilation system final ppt.pptx

About This Presentation

Slide Content

Slide 1

Slide 2

Slide 3

Slide 4

Slide 5

Slide 6

Slide 7

Slide 8

Slide 9

Slide 10

Slide 11

Slide 12

Slide 13

Slide 14

Slide 15

Slide 16

Slide 17

Slide 18

Slide 19

Slide 20

Slide 21

Slide 22

Slide 23

Slide 24

Slide 25

Slide 26

Slide 27

Slide 28

Tags

Categories

Download

Quick Actions

Statistics

Related Slideshows

8-top-ai-courses-for-customer-support-representatives-in-2025.pptx

7-essential-ai-courses-for-call-center-supervisors-in-2025.pptx

25-essential-ai-courses-for-user-support-specialists-in-2025.pptx

8-essential-ai-courses-for-insurance-customer-service-representatives-in-2025.pptx

Know for Certain

PPT OPD LES 3ertt4t4tqqqe23e3e3rq2qq232.pptx