Comparison
Comparison of Traditional Construction Methods and Low-Waste Technologies
| Process | Traditional Methods | Low-Waste Technologies | ||
Building Design |
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Use of materials size does not correspond with the dimensions in the building |
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With the standard modular approach, walls and slabs are standardized in both size an shape, being interchangeable between different building types |
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Building components not standardized |
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Standardized building components |
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Down-stand beams and columns detrimental to large panel formwork system construction | |
Walls and flat slabs only, no down-stand beams and columns | |
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Specifications exceed the performance required | |
Modification of specifications to suit the contractor’s available equipment and materials | |
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Significant unnecessary mid-project variations | |
Less design variation | |
Formwork |
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Conventional timber formwork |
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Large steel panel forms |
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Double the cost of using steel panel in long run | |
High initial cost but balanced by the long terms savings in timber formwork | |
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Labour intensive for erecting and striking formwork | |
Less labour force required for erecting and striking formwork | |
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Longer construction duration |
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High efficiency, twice faster than timber formwork system |
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Plastering need for leveling concrete surface | |
Better quality concrete products, concrete surfaces suitable for applying tiles and paints directly | |
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Reused 8-15 times, several sets of timber forms needed for a high-rise block | |
Reused over 100 times, one set of forms sufficient to complete a block and can be reused in another sites | |
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Hand lift timber board from floor to floor | |
Tower cranes needed for lifting formwork | |
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Considerable timber waste produced | |
Waste steel scrapped for recycling, less waste produced | |
Concrete Work |
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In-situ placement |
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Precast concrete |
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Time consuming |
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Shorter construction time |
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Higher labour cost | |
Higher initial cost but relative cheaper for large quantity | |
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Poor quality, honeycombing often occurs | |
Mass production, high degree of quality control | |
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Plastering required before applying tiles and paints | |
Elements usually completed with necessary fixtures and finishes, no need for further finishing works | |
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More waste produced | |
About 30% less waste than in-situ concreting | |
Masonry Work |
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Brick walls or concrete block walls |
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Internal drywall partitions |
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Lower materials cost but higher labour cost |
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Higher materials cost but lower labour cost |
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High skill levels | |
Easy to install, low skill levels | |
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Thick layer of plaster needed | |
Smooth surface and no plastering needed | |
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Time consuming | |
Four times faster than masonry work plus plastering | |
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More waste produced | |
Wet trade not involved, hence less waste generated | |
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Walls with higher strength | |
Walls with lower strength | |
Plastering |
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Conventional mortar cement |
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Spray Plaster |
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Manual Applying |
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Mechanical spraying |
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Suitable for rough wall surface, further leveling is required | |
Suitable for smooth wall surface, further leveling is not required | |
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Time consuming | |
Faster construction | |
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Labour intensive | |
Less labour demand | |
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More waste generated | |
Less waste generated | |
Hoarding |
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Timber hoarding |
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Steel hoarding |
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Cheaper materials cost, easy to erect |
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Expensive and demand higher labour force for erection, but safe for passer-by |
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Less durable, about 2 years lifetime | |
More durable, about 4.5 years lifetime | |
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Low reusability, discarded after used once | |
High reusability, waste steel scrapped for recycling | |
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More timber waste produced | |
70% less waste | |
Scaffolding |
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Conventional bamboo scaffold |
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Gondola with Passenger Lift |
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Lower initial cost |
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Higher initial cost, but balanced by saving in materials cost in the long run |
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High labour cost | |
Less labour force required | |
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Less safe for workers | |
More safe for workers | |
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More bamboo waste produced | |
80% less waste | |
| Traditional Methods |
Cost Unit (%) |
Low-Waste Technologies |
Cost Unit (%) |
Timber formwork |
115-125 |
Large panel steel formwork |
100 |
| Timber formwork | 100 | Aluminum slab formwork | 115-125 |
| Timber formwork | 100 | Semi precast slab | 85-95 |
| In-situ facade | 115-125 | Precast facade | 100 |
| In-situ staircase | 110-120 | Precast concrete staircase | 100 |
| Traditional blockworks and plaster | 100 | Drywall partition | 170-190 |
| Traditional plaster | 100 | Spray plaster | 110-120 |
| Traditional Flooring | 100 | Self-Levelling Flooring | 140 |
| In-situ cooking bench | 110-120 | Precast cooking bench | 100 |
