SlideShare una empresa de Scribd logo

WARISH SADDAM SOLID WASTE USE AS A ROAD CONSTRUCTION MATERIAL ppt m.tech 2019

Descargar como PPTX, PDF
W
Warish Khan

This document discusses the use of various waste materials in road construction as a way to reduce waste and costs. It outlines how materials like paving waste, industrial ash, and plastics can replace natural aggregates in asphalt, concrete, and other road building materials. Using waste provides environmental and economic benefits. Case studies show roads successfully constructed with materials like crushed concrete, fly ash, and shredded plastics blended into asphalt. Waste-based roads are often more durable and less permeable than conventional roads.

Ingeniería
1 de 31
GOOD MORNING SIR Waste material used as construction material
CONTENTS I. INTRODUCTION II. ROAD CONSTRUCTION MATERIAL & PAVEMENT DESIGN III. ADVANTAGES IV. TYPES OF WASTE MATERIAL V. CASE STUDEY VI. REFERENCES
 Introduction. . .  As the world population grows, so do the amount and type of waste being generated.  Many of the waste produced today will remain in environment.  The creation of non decaying waste material, combined with a growing consumer population, has resulted in a waste disposal crisis.  One solution to this crisis lies in recycling waste into useful products.  It is try to match society need for safe and economic disposal of waste material with highway industry need for better and more cost effective construction material.
 Road Construction Material. . .  Highway construction projects utilize these natural rock material: aggregate, crushed rock, broken stone, sand and gravel.  All of this material can be fully or partially replaced with recycled materials.
 Surface :-  Asphalt is a residue produced when crude oil is refined for gasoline. It is combined with aggregate materials, including sand and gravel, in an asphalt mix, which is used for flexible pavement on road.  A rigid pavement typically used for bridges and overpasses, consists of a concrete mix made of cement and aggregates.  Base :-  Base course unbound or bound materials.  Subbase :-  Sabbase aggregate, unbound material.  Subgrade :-  Subgrade are commonly compacted before the construction of a road and sometime stabilized by the addition of asphalt, lime, portland cement or other modifier.
 Advantages :-  Domestic and industrial waste products provide a prospective source of alternative material.  These material are cheaply available.  Also, their use in road construction provide an effective solution to the associated problem of pollution and disposal of these waste.
 Following types of waste material used in road construction:-  Pawing Waste Materials. . .  Industrial Ash Material. . .  Plastic Waste Material. . .
 Pawing Waste Materials. . .  Most of the paving wastes discussed in this section are crushed concrete or pulverized bituminous.  Material Properties. . .  Generally, concrete rubble consists of a mixture of stone, dirt, wood, brick, organic material, and broken concrete with and without some reinforcing steel.  Impurities such as reinforcing bars, wood, and inorganic material are removed from the crushed concrete.  Having been crushed, the reclaimed material may be blended with aggregate for reuse.
 CONTI. . .  Pulverized bituminous materials have been used in cold place recycling, both as pavement and shoulder material.  The material is also used as an aggregate surfacing in areas where washout is a problem.
 Construction. . .  Coarse and fine aggregates for concrete mixture can be produced by crushing old concrete.  Portable processing equipment has been used most successfully concrete mix with crushed concrete aggregates.  Reclaimed portland cement concrete (PCC) and asphaltic concrete can be used as aggregates with added sand to make new portland cement concrete.  The old slabs should be broken with a pneumatic hammer to minimize subgrade soil adhesion.
 CONTI . . .  Most steel can be removed during crushing.  The asphaltic concrete should be removed with an excavator and stockpiled separately.  The sand is added to modify grading for mix aggregate requirements.  The mix design is not particularly different from mixes using aggregates.
 Industrial Ash Material. . .  Industrial ash is divided into two categories: flyash and bottom ash.  Flyash is produced in thermal power station.  Bottom ash is coarser than flyash and has a different material characteristics.  Material Properties. . .  Properties of industrial ash strongly depend upon the process and equipment used to generate the waste ash.  However, wastes with the same: general material characteristics are discussed together to avoid a detailed subgrouping.
 CONTI. . .  Fly ash is a product of burning finely ground coal in a boiler to produce electricity.  It is removed from the plant by exhaust gas .  Fly ash is a pozzolan, a siliceous material which in the presence of water will react with calcium hydroxide at ordinary temperature to produce cementitious compound.  It is useful in cement and concrete application.  Flyash is generally final than portland cement (1 to 50 microns in diameter) and consists mostly of small spheres of glass of complex composition involving 40 to 50 percent silica oxide, 5 to 40 percent ferric oxide and 5 to 35 percent alumina oxide.  Its composition varies with the source of coal.
 CONTI. . .  The properties of flyash depend on the type of coal burning boiler. . . 1. Stoker Fired Furnace: usually not good for highway construction. 2. Cyclone Furnaces: generally not good for use in PCC and not widely available. 3. Pulverized Coal Furnaces: usually the best in quality and in large quantities.  Bottom ash waste is the heavier, finely divided residue that falls down out of the coal fired burners used to generate electrical power.  Two major types of bottom ash exist according to two basic types of boilers used.
 CONTI. . .  Dry bottom ash - produced by the dry bottom boiler which has an ash hopper below an open gate at its base.  The heavy ash collected by the ash hopper contains molten slag.  Dry bottom ash is composed of fine angular particles which are gray to black in color and resemble fine sand.  Some of the smaller particles have a glassy appearance and the surface of the particles is very porous.  Its chemical composition includes 20 to 60 percent silica oxide, 5 to 35 percent ferric oxide, 10 to 35 percent alumina oxide, 1 to 20 percent Calcium oxide.
 CONTI. . .  Wet bottom ash/boiler slag - produced by the wet bottom or slag tap boiler which has a water-filled ash hopper at its base orifice.  The rnolten ash collected by the water hopper quenches in the water, crystallizes, solidifies, and forms angular, black, glassy particles ranging from 0.25 to 0.5 inch in size.  A typical chemical composition of wet bottom ash includes 42.7 percent silica oxide, 27.5 percent ferric oxide, 21 percent alumina oxide, 6.4 percent calcium oxide, and 2.2 percent other.
 Construction. . .  Flyash can be added to portland cement for the treatment of base materials.  Four basic steps are needed including; spreading flyash and cement over the pulverized mix, blending the materials together, wetting the mix, and compacting the mix with a vibratory roller. A typical mix contains, 80 percent ground materials, 16 percent flyash and 4 percent cement.  In another base stabilization method, a pozzolan aggregate mixture (PAM) is used for base construction.  PAM contains approximately 85 percent aggregate, 3 to 4 percent lime, and 12 percent flyash.  Aggregatc used in PAM should be well graded stone, sand, gravel, or slag with a maximum size of 1 inch.
 CONTI. . .  Flyash can be used as a fill material for roadway embankments.  It is light weight so used as binder in stabilized base or subbase due to pozzolanic properties.
Plastic Waste. . .  Disposal of waste plastic is major problem because it’s non-biodegradable.  The roads constructed using waste plastic, popularly known as plastic roads.  The ICPE has been promoting the use of plastic waste to construct asphalt roads.
 Construction. . .  STEP – 1 :-  Plastics waste (bags, cups, bottles etc.) cut into a size between 2.36 mm and 4.75 mm using shredding machine.
 STEP – 2 :-  The aggregate mix is heated to 165 C and transferred to mixing chamber. Amount of plastic to be added is 8% of bitumen.
 STEP – 3 :-  Similarly the bitumen is to be heated upto a maximum of 160 C to have good binding and to prevent weak bonding.
 STEP – 4 :-  At the mixing chamber, the shredded plastic waste is to be added. It get coated uniformly over the aggregate within 30 to 60 second.
 STEP – 5 :-  The plastic waste coated aggregate is mixed with got bitumen and the resulted mix is used for road construction. The roller used is 8-ton capacity.
 PLASTIC WASTE ROAD. . .  In a first in the state Madhya Pradesh Rural Road Development Authority (MPRRDA) has put to constructive use plastic waste to lay 22 roads.  MPRRDA has so far utilized at least 17 tonnes of plastic waste for construction of these roads which cumulatively will measure 35 km in length, going by the fact that it takes 0.5 tonne of such waste to make each km of road.  As a pilot project first started laying roads in three districts of Bhopal, Indore, and Jabalpur.
 PLASTIC WASTE MATERIAL USED IN ROAD CONSTRUCTION IN GUJARAT..  In Ahmedabad, every year AMC spends millions of rupees for constructing new roads and for resurfacing old roads.  However, due to low quality during the monsoon a huge number of roads in the city are washed away and it severely impacts the AMC coffer.  The municipal corporation foresees array of benefits of using plastics waste in road construction such as reduction in discarded plastics bags in the city, protecting the roads washing out in monsoon, reduction in cracks in roads due to melting bitumen in summer, cost effectiveness and significant increase in the income of rag pickers.
SR. NO. PROPERTIES PLASTIC ROAD ORDINARY ROAD 1 STABILITY VALUSE MORE LESS 2 BINDING PROPERTY BETTER GOOD 3 SOFTENING POINT LESS MORE 4 PENETRATION VALUE MORE LESS 5 TENSILE STRENGTH HIGH LESS 6 SEEPAGE OF WATER NO YES 7 DURABILITY OF ROAD BETTER GOOD 8 COST OF PAVEMENT LESS NORMAL 9 MAINTENANCE COST ALMOST NIL MORE 10 ENVIRONMENTAL FRIENDLY YES NO  COMPARISON BETWEEN ORDINARY ROADS AND WASTE PLASTIC ROADS. ..
 References. . .  Waste Products in Highway Constuctioin - Chunhua IHan, Ph.D.  Butte, W.A., E.M. Kohn and E.G. Scheibel, Highway Binder Materials from Cellulosic and Related Wastes. FHWAReport No. FHWA/RD-130, December 1980.  Terrel, R.L. et al., Evaluation of Wood Lignin as a Substitute or Extender of Asphalt. FHWAReport No. FHWA/RD-80/125, October 1980.  Brock, J. D., and Shaw, D., From Roofing Shingles to Roads. Technical Paper T- 120, Astec Industries, Chattanooga, TN, 1989.  Paulsen, G., Stroup-Gardiner, M., and Epps, J., Roofing Waste in Asphalt Paving Mixtures. ” Center for Construction Materials Research, University of Nevada, Reno, 1988.
WARISH SADDAM SOLID WASTE USE AS A ROAD CONSTRUCTION MATERIAL ppt m.tech 2019

Recomendados

CONSTRUCTION MATERIAL
CONSTRUCTION MATERIAL CONSTRUCTION MATERIAL
CONSTRUCTION MATERIAL
Warish Khan
 
Roads using waste by pooja dohare
Roads using waste by pooja dohareRoads using waste by pooja dohare
Roads using waste by pooja dohare
Preeti Rashmi
 
Recycle material used in road construction
Recycle material used in road constructionRecycle material used in road construction
Recycle material used in road construction
pavan bathani
 
Green concrete
Green concreteGreen concrete
Green concrete
ghildiyal8811
 
reuse and recycle of construction material
reuse and recycle of construction materialreuse and recycle of construction material
reuse and recycle of construction material
Rakesh Rahar
 
Use of Waste Materials As a replacement of Coarse Aggregate in Concrete Mix
Use of Waste Materials As a replacement of Coarse Aggregate in Concrete MixUse of Waste Materials As a replacement of Coarse Aggregate in Concrete Mix
Use of Waste Materials As a replacement of Coarse Aggregate in Concrete Mix
Nitin Yadav
 
Fly ash bricks an entrepreneur's approach
Fly ash bricks an entrepreneur's approachFly ash bricks an entrepreneur's approach
Fly ash bricks an entrepreneur's approach
diaryinc
 
Utilization of industrial waste in the construction industry
Utilization of industrial waste in the construction industryUtilization of industrial waste in the construction industry
Utilization of industrial waste in the construction industry
eSAT Publishing House
 

Recomendados

CONSTRUCTION MATERIAL
CONSTRUCTION MATERIAL CONSTRUCTION MATERIAL
CONSTRUCTION MATERIAL
Warish Khan
 
Roads using waste by pooja dohare
Roads using waste by pooja dohareRoads using waste by pooja dohare
Roads using waste by pooja dohare
Preeti Rashmi
 
Recycle material used in road construction
Recycle material used in road constructionRecycle material used in road construction
Recycle material used in road construction
pavan bathani
 
Green concrete
Green concreteGreen concrete
Green concrete
ghildiyal8811
 
reuse and recycle of construction material
reuse and recycle of construction materialreuse and recycle of construction material
reuse and recycle of construction material
Rakesh Rahar
 
Use of Waste Materials As a replacement of Coarse Aggregate in Concrete Mix
Use of Waste Materials As a replacement of Coarse Aggregate in Concrete MixUse of Waste Materials As a replacement of Coarse Aggregate in Concrete Mix
Use of Waste Materials As a replacement of Coarse Aggregate in Concrete Mix
Nitin Yadav
 
Fly ash bricks an entrepreneur's approach
Fly ash bricks an entrepreneur's approachFly ash bricks an entrepreneur's approach
Fly ash bricks an entrepreneur's approach
diaryinc
 
Utilization of industrial waste in the construction industry
Utilization of industrial waste in the construction industryUtilization of industrial waste in the construction industry
Utilization of industrial waste in the construction industry
eSAT Publishing House
 
Presentation (thailand paper) (1)
Presentation (thailand paper) (1)Presentation (thailand paper) (1)
Presentation (thailand paper) (1)
Monjurul Shuvo
 
Recycled aggregate concrete
Recycled aggregate concreteRecycled aggregate concrete
Recycled aggregate concrete
Vignesh Nandha
 
Fly ash
Fly ashFly ash
Fly ash
sonali parashar
 
Construction and demolition waste
Construction and demolition wasteConstruction and demolition waste
Construction and demolition waste
12cl0viren
 
FLY ASH BRICKS
FLY ASH BRICKSFLY ASH BRICKS
FLY ASH BRICKS
diaryinc
 
Eco friendly-concrete (Green Concrete)
Eco friendly-concrete (Green Concrete)Eco friendly-concrete (Green Concrete)
Eco friendly-concrete (Green Concrete)
Haider Jafferi
 
Presentation on Green Concrete
Presentation on Green ConcretePresentation on Green Concrete
Presentation on Green Concrete
Zohaib Tariq
 
PPT on Green concrete by Pankaj Kumar
PPT on Green concrete by Pankaj KumarPPT on Green concrete by Pankaj Kumar
PPT on Green concrete by Pankaj Kumar
Pankaj Kumar
 
CONSTRUCTION WASTE RECYCLING
CONSTRUCTION WASTE RECYCLINGCONSTRUCTION WASTE RECYCLING
CONSTRUCTION WASTE RECYCLING
Ijripublishers Ijri
 
Polymer road technology
Polymer road technologyPolymer road technology
Polymer road technology
Nikhil Bhole
 
Recycling agro wastes in building technology a greener alternative - deepak...
Recycling agro wastes in building technology a greener alternative - deepak...Recycling agro wastes in building technology a greener alternative - deepak...
Recycling agro wastes in building technology a greener alternative - deepak...
Deepak Kumar Rout
 
RECYCLING OF WASTE IN CHEMICAL AND OTHER INDUSTRIES,FLY ASH ...
RECYCLING OF WASTE IN CHEMICAL AND OTHER INDUSTRIES,FLY ASH ...RECYCLING OF WASTE IN CHEMICAL AND OTHER INDUSTRIES,FLY ASH ...
RECYCLING OF WASTE IN CHEMICAL AND OTHER INDUSTRIES,FLY ASH ...
Gowri Prabhu
 
Green concrete (nandeesh)
Green concrete (nandeesh)Green concrete (nandeesh)
Green concrete (nandeesh)
Nandeesh Mallapurmath
 
Utilisation of Waste Materials in the Construction Of Roads
Utilisation of Waste Materials in the Construction Of RoadsUtilisation of Waste Materials in the Construction Of Roads
Utilisation of Waste Materials in the Construction Of Roads
IJERD Editor
 
Fly Ash Brick
Fly Ash BrickFly Ash Brick
Fly Ash Brick
guest99d582
 
EXECUTIVE SUMMARY GLASS CONCRETE
EXECUTIVE SUMMARY GLASS CONCRETEEXECUTIVE SUMMARY GLASS CONCRETE
EXECUTIVE SUMMARY GLASS CONCRETE
Mike Jabbour
 
Eco-Friendly Concrete
Eco-Friendly ConcreteEco-Friendly Concrete
Eco-Friendly Concrete
Ali Rehman
 
Ppt of green concrete
Ppt of green concretePpt of green concrete
Ppt of green concrete
Devi Harshita Alla
 
Physical Properties of Construction & Demolished Waste Concrete
Physical Properties of Construction & Demolished Waste ConcretePhysical Properties of Construction & Demolished Waste Concrete
Physical Properties of Construction & Demolished Waste Concrete
ijsrd.com
 
green concrete
green concretegreen concrete
green concrete
kamaruddin vn
 
Management of fly ash
Management of fly ashManagement of fly ash
Management of fly ash
Baldev Singh
 
Bj044377381
Bj044377381Bj044377381
Bj044377381
IJERA Editor
 

Más contenido relacionado

La actualidad más candente

Recycled aggregate concrete
Recycled aggregate concreteRecycled aggregate concrete
Recycled aggregate concrete
Vignesh Nandha
 
CONSTRUCTION WASTE RECYCLING
CONSTRUCTION WASTE RECYCLINGCONSTRUCTION WASTE RECYCLING
CONSTRUCTION WASTE RECYCLING
Ijripublishers Ijri
 
Utilisation of Waste Materials in the Construction Of Roads
Utilisation of Waste Materials in the Construction Of RoadsUtilisation of Waste Materials in the Construction Of Roads
Utilisation of Waste Materials in the Construction Of Roads
IJERD Editor
 
EXECUTIVE SUMMARY GLASS CONCRETE
EXECUTIVE SUMMARY GLASS CONCRETEEXECUTIVE SUMMARY GLASS CONCRETE
EXECUTIVE SUMMARY GLASS CONCRETE
Mike Jabbour
 
Physical Properties of Construction & Demolished Waste Concrete
Physical Properties of Construction & Demolished Waste ConcretePhysical Properties of Construction & Demolished Waste Concrete
Physical Properties of Construction & Demolished Waste Concrete
ijsrd.com
 

La actualidad más candente (20)

Presentation (thailand paper) (1)
Presentation (thailand paper) (1)Presentation (thailand paper) (1)
Presentation (thailand paper) (1)
 
Recycled aggregate concrete
Recycled aggregate concreteRecycled aggregate concrete
Recycled aggregate concrete
 
Fly ash
Fly ashFly ash
Fly ash
 
Construction and demolition waste
Construction and demolition wasteConstruction and demolition waste
Construction and demolition waste
 
FLY ASH BRICKS
FLY ASH BRICKSFLY ASH BRICKS
FLY ASH BRICKS
 
Eco friendly-concrete (Green Concrete)
Eco friendly-concrete (Green Concrete)Eco friendly-concrete (Green Concrete)
Eco friendly-concrete (Green Concrete)
 
Presentation on Green Concrete
Presentation on Green ConcretePresentation on Green Concrete
Presentation on Green Concrete
 
PPT on Green concrete by Pankaj Kumar
PPT on Green concrete by Pankaj KumarPPT on Green concrete by Pankaj Kumar
PPT on Green concrete by Pankaj Kumar
 
CONSTRUCTION WASTE RECYCLING
CONSTRUCTION WASTE RECYCLINGCONSTRUCTION WASTE RECYCLING
CONSTRUCTION WASTE RECYCLING
 
Polymer road technology
Polymer road technologyPolymer road technology
Polymer road technology
 
Recycling agro wastes in building technology a greener alternative - deepak...
Recycling agro wastes in building technology a greener alternative - deepak...Recycling agro wastes in building technology a greener alternative - deepak...
Recycling agro wastes in building technology a greener alternative - deepak...
 
RECYCLING OF WASTE IN CHEMICAL AND OTHER INDUSTRIES,FLY ASH ...
RECYCLING OF WASTE IN CHEMICAL AND OTHER INDUSTRIES,FLY ASH ...RECYCLING OF WASTE IN CHEMICAL AND OTHER INDUSTRIES,FLY ASH ...
RECYCLING OF WASTE IN CHEMICAL AND OTHER INDUSTRIES,FLY ASH ...
 
Green concrete (nandeesh)
Green concrete (nandeesh)Green concrete (nandeesh)
Green concrete (nandeesh)
 
Utilisation of Waste Materials in the Construction Of Roads
Utilisation of Waste Materials in the Construction Of RoadsUtilisation of Waste Materials in the Construction Of Roads
Utilisation of Waste Materials in the Construction Of Roads
 
Fly Ash Brick
Fly Ash BrickFly Ash Brick
Fly Ash Brick
 
EXECUTIVE SUMMARY GLASS CONCRETE
EXECUTIVE SUMMARY GLASS CONCRETEEXECUTIVE SUMMARY GLASS CONCRETE
EXECUTIVE SUMMARY GLASS CONCRETE
 
Eco-Friendly Concrete
Eco-Friendly ConcreteEco-Friendly Concrete
Eco-Friendly Concrete
 
Ppt of green concrete
Ppt of green concretePpt of green concrete
Ppt of green concrete
 
Physical Properties of Construction & Demolished Waste Concrete
Physical Properties of Construction & Demolished Waste ConcretePhysical Properties of Construction & Demolished Waste Concrete
Physical Properties of Construction & Demolished Waste Concrete
 
green concrete
green concretegreen concrete
green concrete
 

Similar a WARISH SADDAM SOLID WASTE USE AS A ROAD CONSTRUCTION MATERIAL ppt m.tech 2019

Chaitra 2016 batch REPORT
Chaitra 2016 batch REPORT Chaitra 2016 batch REPORT
Chaitra 2016 batch REPORT
Chaithra M
 
Ways of Utilization of Dust from Cement Plants
Ways of Utilization of Dust from Cement PlantsWays of Utilization of Dust from Cement Plants
Ways of Utilization of Dust from Cement Plants
YogeshIJTSRD
 
POLYMER MODIFIED BITUMEN
POLYMER MODIFIED BITUMENPOLYMER MODIFIED BITUMEN
POLYMER MODIFIED BITUMEN
Nitesh Jha
 

Similar a WARISH SADDAM SOLID WASTE USE AS A ROAD CONSTRUCTION MATERIAL ppt m.tech 2019 (20)

Management of fly ash
Management of fly ashManagement of fly ash
Management of fly ash
 
Bj044377381
Bj044377381Bj044377381
Bj044377381
 
Chaitra 2016 batch REPORT
Chaitra 2016 batch REPORT Chaitra 2016 batch REPORT
Chaitra 2016 batch REPORT
 
IRJET- An Experimental Investigation on Cement Mortar Brick by Partial Re...
IRJET- An Experimental Investigation on Cement Mortar Brick by Partial Re...IRJET- An Experimental Investigation on Cement Mortar Brick by Partial Re...
IRJET- An Experimental Investigation on Cement Mortar Brick by Partial Re...
 
IRJET- An Experimental Investigation on Cement Mortar Brick by Partial Replac...
IRJET- An Experimental Investigation on Cement Mortar Brick by Partial Replac...IRJET- An Experimental Investigation on Cement Mortar Brick by Partial Replac...
IRJET- An Experimental Investigation on Cement Mortar Brick by Partial Replac...
 
MODIFICATION OF BITUMEN BY PLASTIC WASTE
MODIFICATION OF BITUMEN BY PLASTIC WASTEMODIFICATION OF BITUMEN BY PLASTIC WASTE
MODIFICATION OF BITUMEN BY PLASTIC WASTE
 
Ijciet 06 09_015
Ijciet 06 09_015Ijciet 06 09_015
Ijciet 06 09_015
 
Cement Manufacturing & Sustainability Reports
Cement Manufacturing & Sustainability ReportsCement Manufacturing & Sustainability Reports
Cement Manufacturing & Sustainability Reports
 
Polymer Modified Bitumen (PMB) for Road Construction
Polymer Modified Bitumen (PMB) for Road ConstructionPolymer Modified Bitumen (PMB) for Road Construction
Polymer Modified Bitumen (PMB) for Road Construction
 
Cement, Cement manufacturing, Types of cement
Cement, Cement manufacturing, Types of cementCement, Cement manufacturing, Types of cement
Cement, Cement manufacturing, Types of cement
 
IRJET- Utilisation of Modified Bitumen in Road Construction
IRJET- Utilisation of Modified Bitumen in Road ConstructionIRJET- Utilisation of Modified Bitumen in Road Construction
IRJET- Utilisation of Modified Bitumen in Road Construction
 
Fly ash minor project
Fly ash minor projectFly ash minor project
Fly ash minor project
 
IRJET- Influence of Red Mud as a Partial Replacement of Cement with Hydrated ...
IRJET- Influence of Red Mud as a Partial Replacement of Cement with Hydrated ...IRJET- Influence of Red Mud as a Partial Replacement of Cement with Hydrated ...
IRJET- Influence of Red Mud as a Partial Replacement of Cement with Hydrated ...
 
Cement industry and its environmental impacts
Cement industry and its environmental impactsCement industry and its environmental impacts
Cement industry and its environmental impacts
 
Cement.docx
Cement.docxCement.docx
Cement.docx
 
Ways of Utilization of Dust from Cement Plants
Ways of Utilization of Dust from Cement PlantsWays of Utilization of Dust from Cement Plants
Ways of Utilization of Dust from Cement Plants
 
finalpresentation-150321013956-conversion-gate01 (1).pptx
finalpresentation-150321013956-conversion-gate01 (1).pptxfinalpresentation-150321013956-conversion-gate01 (1).pptx
finalpresentation-150321013956-conversion-gate01 (1).pptx
 
POLYMER MODIFIED BITUMEN
POLYMER MODIFIED BITUMENPOLYMER MODIFIED BITUMEN
POLYMER MODIFIED BITUMEN
 
Green Concrete (Nandeesh)
Green Concrete (Nandeesh)Green Concrete (Nandeesh)
Green Concrete (Nandeesh)
 
fly ash a_boon_for_concrete BY RAJ PREMANI
fly ash a_boon_for_concrete BY RAJ PREMANIfly ash a_boon_for_concrete BY RAJ PREMANI
fly ash a_boon_for_concrete BY RAJ PREMANI
 

Último

Top Rated Call Girls In chittoor 📱 {7001035870} VIP Escorts chittoor
Top Rated Call Girls In chittoor 📱 {7001035870} VIP Escorts chittoorTop Rated Call Girls In chittoor 📱 {7001035870} VIP Escorts chittoor
Top Rated Call Girls In chittoor 📱 {7001035870} VIP Escorts chittoor
dharasingh5698
 
Standard vs Custom Battery Packs - Decoding the Power Play
Standard vs Custom Battery Packs - Decoding the Power PlayStandard vs Custom Battery Packs - Decoding the Power Play
Standard vs Custom Battery Packs - Decoding the Power Play
Epec Engineered Technologies
 
Bhosari ( Call Girls ) Pune 6297143586 Hot Model With Sexy Bhabi Ready For ...
Bhosari ( Call Girls ) Pune 6297143586 Hot Model With Sexy Bhabi Ready For ...Bhosari ( Call Girls ) Pune 6297143586 Hot Model With Sexy Bhabi Ready For ...
Bhosari ( Call Girls ) Pune 6297143586 Hot Model With Sexy Bhabi Ready For ...
tanu pandey
 
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
dollysharma2066
 
Call Girls In Bangalore ☎ 7737669865 🥵 Book Your One night Stand
Call Girls In Bangalore ☎ 7737669865 🥵 Book Your One night StandCall Girls In Bangalore ☎ 7737669865 🥵 Book Your One night Stand
Call Girls In Bangalore ☎ 7737669865 🥵 Book Your One night Stand
amitlee9823
 
(INDIRA) Call Girl Bhosari Call Now 8617697112 Bhosari Escorts 24x7
(INDIRA) Call Girl Bhosari Call Now 8617697112 Bhosari Escorts 24x7(INDIRA) Call Girl Bhosari Call Now 8617697112 Bhosari Escorts 24x7
(INDIRA) Call Girl Bhosari Call Now 8617697112 Bhosari Escorts 24x7
Call Girls in Nagpur High Profile Call Girls
 
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Arindam Chakraborty, Ph.D., P.E. (CA, TX)
 
Call Girls in Netaji Nagar, Delhi 💯 Call Us 🔝9953056974 🔝 Escort Service
Call Girls in Netaji Nagar, Delhi 💯 Call Us 🔝9953056974 🔝 Escort ServiceCall Girls in Netaji Nagar, Delhi 💯 Call Us 🔝9953056974 🔝 Escort Service
Call Girls in Netaji Nagar, Delhi 💯 Call Us 🔝9953056974 🔝 Escort Service
9953056974 Low Rate Call Girls In Saket, Delhi NCR
 
Call Girls Pimpri Chinchwad Call Me 7737669865 Budget Friendly No Advance Boo...
Call Girls Pimpri Chinchwad Call Me 7737669865 Budget Friendly No Advance Boo...Call Girls Pimpri Chinchwad Call Me 7737669865 Budget Friendly No Advance Boo...
Call Girls Pimpri Chinchwad Call Me 7737669865 Budget Friendly No Advance Boo...
roncy bisnoi
 
Call Now ≽ 9953056974 ≼🔝 Call Girls In New Ashok Nagar ≼🔝 Delhi door step de...
Call Now ≽ 9953056974 ≼🔝 Call Girls In New Ashok Nagar ≼🔝 Delhi door step de...Call Now ≽ 9953056974 ≼🔝 Call Girls In New Ashok Nagar ≼🔝 Delhi door step de...
Call Now ≽ 9953056974 ≼🔝 Call Girls In New Ashok Nagar ≼🔝 Delhi door step de...
9953056974 Low Rate Call Girls In Saket, Delhi NCR
 

Último (20)

Top Rated Call Girls In chittoor 📱 {7001035870} VIP Escorts chittoor
Top Rated Call Girls In chittoor 📱 {7001035870} VIP Escorts chittoorTop Rated Call Girls In chittoor 📱 {7001035870} VIP Escorts chittoor
Top Rated Call Girls In chittoor 📱 {7001035870} VIP Escorts chittoor
 
Water Industry Process Automation & Control Monthly - April 2024
Water Industry Process Automation & Control Monthly - April 2024Water Industry Process Automation & Control Monthly - April 2024
Water Industry Process Automation & Control Monthly - April 2024
 
Thermal Engineering-R & A / C - unit - V
Thermal Engineering-R & A / C - unit - VThermal Engineering-R & A / C - unit - V
Thermal Engineering-R & A / C - unit - V
 
2016EF22_0 solar project report rooftop projects
2016EF22_0 solar project report rooftop projects2016EF22_0 solar project report rooftop projects
2016EF22_0 solar project report rooftop projects
 
Introduction to Serverless with AWS Lambda
Introduction to Serverless with AWS LambdaIntroduction to Serverless with AWS Lambda
Introduction to Serverless with AWS Lambda
 
Standard vs Custom Battery Packs - Decoding the Power Play
Standard vs Custom Battery Packs - Decoding the Power PlayStandard vs Custom Battery Packs - Decoding the Power Play
Standard vs Custom Battery Packs - Decoding the Power Play
 
Bhosari ( Call Girls ) Pune 6297143586 Hot Model With Sexy Bhabi Ready For ...
Bhosari ( Call Girls ) Pune 6297143586 Hot Model With Sexy Bhabi Ready For ...Bhosari ( Call Girls ) Pune 6297143586 Hot Model With Sexy Bhabi Ready For ...
Bhosari ( Call Girls ) Pune 6297143586 Hot Model With Sexy Bhabi Ready For ...
 
A Study of Urban Area Plan for Pabna Municipality
A Study of Urban Area Plan for Pabna MunicipalityA Study of Urban Area Plan for Pabna Municipality
A Study of Urban Area Plan for Pabna Municipality
 
Employee leave management system project.
Employee leave management system project.Employee leave management system project.
Employee leave management system project.
 
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
FULL ENJOY Call Girls In Mahipalpur Delhi Contact Us 8377877756
 
Unit 1 - Soil Classification and Compaction.pdf
Unit 1 - Soil Classification and Compaction.pdfUnit 1 - Soil Classification and Compaction.pdf
Unit 1 - Soil Classification and Compaction.pdf
 
Call Girls In Bangalore ☎ 7737669865 🥵 Book Your One night Stand
Call Girls In Bangalore ☎ 7737669865 🥵 Book Your One night StandCall Girls In Bangalore ☎ 7737669865 🥵 Book Your One night Stand
Call Girls In Bangalore ☎ 7737669865 🥵 Book Your One night Stand
 
chapter 5.pptx: drainage and irrigation engineering
chapter 5.pptx: drainage and irrigation engineeringchapter 5.pptx: drainage and irrigation engineering
chapter 5.pptx: drainage and irrigation engineering
 
(INDIRA) Call Girl Bhosari Call Now 8617697112 Bhosari Escorts 24x7
(INDIRA) Call Girl Bhosari Call Now 8617697112 Bhosari Escorts 24x7(INDIRA) Call Girl Bhosari Call Now 8617697112 Bhosari Escorts 24x7
(INDIRA) Call Girl Bhosari Call Now 8617697112 Bhosari Escorts 24x7
 
Design For Accessibility: Getting it right from the start
Design For Accessibility: Getting it right from the startDesign For Accessibility: Getting it right from the start
Design For Accessibility: Getting it right from the start
 
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
Navigating Complexity: The Role of Trusted Partners and VIAS3D in Dassault Sy...
 
data_management_and _data_science_cheat_sheet.pdf
data_management_and _data_science_cheat_sheet.pdfdata_management_and _data_science_cheat_sheet.pdf
data_management_and _data_science_cheat_sheet.pdf
 
Call Girls in Netaji Nagar, Delhi 💯 Call Us 🔝9953056974 🔝 Escort Service
Call Girls in Netaji Nagar, Delhi 💯 Call Us 🔝9953056974 🔝 Escort ServiceCall Girls in Netaji Nagar, Delhi 💯 Call Us 🔝9953056974 🔝 Escort Service
Call Girls in Netaji Nagar, Delhi 💯 Call Us 🔝9953056974 🔝 Escort Service
 
Call Girls Pimpri Chinchwad Call Me 7737669865 Budget Friendly No Advance Boo...
Call Girls Pimpri Chinchwad Call Me 7737669865 Budget Friendly No Advance Boo...Call Girls Pimpri Chinchwad Call Me 7737669865 Budget Friendly No Advance Boo...
Call Girls Pimpri Chinchwad Call Me 7737669865 Budget Friendly No Advance Boo...
 
Call Now ≽ 9953056974 ≼🔝 Call Girls In New Ashok Nagar ≼🔝 Delhi door step de...
Call Now ≽ 9953056974 ≼🔝 Call Girls In New Ashok Nagar ≼🔝 Delhi door step de...Call Now ≽ 9953056974 ≼🔝 Call Girls In New Ashok Nagar ≼🔝 Delhi door step de...
Call Now ≽ 9953056974 ≼🔝 Call Girls In New Ashok Nagar ≼🔝 Delhi door step de...
 

WARISH SADDAM SOLID WASTE USE AS A ROAD CONSTRUCTION MATERIAL ppt m.tech 2019

  • 1. GOOD MORNING SIR Waste material used as construction material
  • 2. CONTENTS I. INTRODUCTION II. ROAD CONSTRUCTION MATERIAL & PAVEMENT DESIGN III. ADVANTAGES IV. TYPES OF WASTE MATERIAL V. CASE STUDEY VI. REFERENCES
  • 3.  Introduction. . .  As the world population grows, so do the amount and type of waste being generated.  Many of the waste produced today will remain in environment.  The creation of non decaying waste material, combined with a growing consumer population, has resulted in a waste disposal crisis.  One solution to this crisis lies in recycling waste into useful products.  It is try to match society need for safe and economic disposal of waste material with highway industry need for better and more cost effective construction material.
  • 4.  Road Construction Material. . .  Highway construction projects utilize these natural rock material: aggregate, crushed rock, broken stone, sand and gravel.  All of this material can be fully or partially replaced with recycled materials.
  • 5.  Surface :-  Asphalt is a residue produced when crude oil is refined for gasoline. It is combined with aggregate materials, including sand and gravel, in an asphalt mix, which is used for flexible pavement on road.  A rigid pavement typically used for bridges and overpasses, consists of a concrete mix made of cement and aggregates.  Base :-  Base course unbound or bound materials.  Subbase :-  Sabbase aggregate, unbound material.  Subgrade :-  Subgrade are commonly compacted before the construction of a road and sometime stabilized by the addition of asphalt, lime, portland cement or other modifier.
  • 6.  Advantages :-  Domestic and industrial waste products provide a prospective source of alternative material.  These material are cheaply available.  Also, their use in road construction provide an effective solution to the associated problem of pollution and disposal of these waste.
  • 7.  Following types of waste material used in road construction:-  Pawing Waste Materials. . .  Industrial Ash Material. . .  Plastic Waste Material. . .
  • 8.  Pawing Waste Materials. . .  Most of the paving wastes discussed in this section are crushed concrete or pulverized bituminous.  Material Properties. . .  Generally, concrete rubble consists of a mixture of stone, dirt, wood, brick, organic material, and broken concrete with and without some reinforcing steel.  Impurities such as reinforcing bars, wood, and inorganic material are removed from the crushed concrete.  Having been crushed, the reclaimed material may be blended with aggregate for reuse.
  • 9.  CONTI. . .  Pulverized bituminous materials have been used in cold place recycling, both as pavement and shoulder material.  The material is also used as an aggregate surfacing in areas where washout is a problem.
  • 10.  Construction. . .  Coarse and fine aggregates for concrete mixture can be produced by crushing old concrete.  Portable processing equipment has been used most successfully concrete mix with crushed concrete aggregates.  Reclaimed portland cement concrete (PCC) and asphaltic concrete can be used as aggregates with added sand to make new portland cement concrete.  The old slabs should be broken with a pneumatic hammer to minimize subgrade soil adhesion.
  • 11.  CONTI . . .  Most steel can be removed during crushing.  The asphaltic concrete should be removed with an excavator and stockpiled separately.  The sand is added to modify grading for mix aggregate requirements.  The mix design is not particularly different from mixes using aggregates.
  • 12.
  • 13.  Industrial Ash Material. . .  Industrial ash is divided into two categories: flyash and bottom ash.  Flyash is produced in thermal power station.  Bottom ash is coarser than flyash and has a different material characteristics.  Material Properties. . .  Properties of industrial ash strongly depend upon the process and equipment used to generate the waste ash.  However, wastes with the same: general material characteristics are discussed together to avoid a detailed subgrouping.
  • 14.  CONTI. . .  Fly ash is a product of burning finely ground coal in a boiler to produce electricity.  It is removed from the plant by exhaust gas .  Fly ash is a pozzolan, a siliceous material which in the presence of water will react with calcium hydroxide at ordinary temperature to produce cementitious compound.  It is useful in cement and concrete application.  Flyash is generally final than portland cement (1 to 50 microns in diameter) and consists mostly of small spheres of glass of complex composition involving 40 to 50 percent silica oxide, 5 to 40 percent ferric oxide and 5 to 35 percent alumina oxide.  Its composition varies with the source of coal.
  • 15.  CONTI. . .  The properties of flyash depend on the type of coal burning boiler. . . 1. Stoker Fired Furnace: usually not good for highway construction. 2. Cyclone Furnaces: generally not good for use in PCC and not widely available. 3. Pulverized Coal Furnaces: usually the best in quality and in large quantities.  Bottom ash waste is the heavier, finely divided residue that falls down out of the coal fired burners used to generate electrical power.  Two major types of bottom ash exist according to two basic types of boilers used.
  • 16.  CONTI. . .  Dry bottom ash - produced by the dry bottom boiler which has an ash hopper below an open gate at its base.  The heavy ash collected by the ash hopper contains molten slag.  Dry bottom ash is composed of fine angular particles which are gray to black in color and resemble fine sand.  Some of the smaller particles have a glassy appearance and the surface of the particles is very porous.  Its chemical composition includes 20 to 60 percent silica oxide, 5 to 35 percent ferric oxide, 10 to 35 percent alumina oxide, 1 to 20 percent Calcium oxide.
  • 17.  CONTI. . .  Wet bottom ash/boiler slag - produced by the wet bottom or slag tap boiler which has a water-filled ash hopper at its base orifice.  The rnolten ash collected by the water hopper quenches in the water, crystallizes, solidifies, and forms angular, black, glassy particles ranging from 0.25 to 0.5 inch in size.  A typical chemical composition of wet bottom ash includes 42.7 percent silica oxide, 27.5 percent ferric oxide, 21 percent alumina oxide, 6.4 percent calcium oxide, and 2.2 percent other.
  • 18.  Construction. . .  Flyash can be added to portland cement for the treatment of base materials.  Four basic steps are needed including; spreading flyash and cement over the pulverized mix, blending the materials together, wetting the mix, and compacting the mix with a vibratory roller. A typical mix contains, 80 percent ground materials, 16 percent flyash and 4 percent cement.  In another base stabilization method, a pozzolan aggregate mixture (PAM) is used for base construction.  PAM contains approximately 85 percent aggregate, 3 to 4 percent lime, and 12 percent flyash.  Aggregatc used in PAM should be well graded stone, sand, gravel, or slag with a maximum size of 1 inch.
  • 19.  CONTI. . .  Flyash can be used as a fill material for roadway embankments.  It is light weight so used as binder in stabilized base or subbase due to pozzolanic properties.
  • 20. Plastic Waste. . .  Disposal of waste plastic is major problem because it’s non-biodegradable.  The roads constructed using waste plastic, popularly known as plastic roads.  The ICPE has been promoting the use of plastic waste to construct asphalt roads.
  • 21.  Construction. . .  STEP – 1 :-  Plastics waste (bags, cups, bottles etc.) cut into a size between 2.36 mm and 4.75 mm using shredding machine.
  • 22.  STEP – 2 :-  The aggregate mix is heated to 165 C and transferred to mixing chamber. Amount of plastic to be added is 8% of bitumen.
  • 23.  STEP – 3 :-  Similarly the bitumen is to be heated upto a maximum of 160 C to have good binding and to prevent weak bonding.
  • 24.  STEP – 4 :-  At the mixing chamber, the shredded plastic waste is to be added. It get coated uniformly over the aggregate within 30 to 60 second.
  • 25.  STEP – 5 :-  The plastic waste coated aggregate is mixed with got bitumen and the resulted mix is used for road construction. The roller used is 8-ton capacity.
  • 26.  PLASTIC WASTE ROAD. . .  In a first in the state Madhya Pradesh Rural Road Development Authority (MPRRDA) has put to constructive use plastic waste to lay 22 roads.  MPRRDA has so far utilized at least 17 tonnes of plastic waste for construction of these roads which cumulatively will measure 35 km in length, going by the fact that it takes 0.5 tonne of such waste to make each km of road.  As a pilot project first started laying roads in three districts of Bhopal, Indore, and Jabalpur.
  • 27.  PLASTIC WASTE MATERIAL USED IN ROAD CONSTRUCTION IN GUJARAT..  In Ahmedabad, every year AMC spends millions of rupees for constructing new roads and for resurfacing old roads.  However, due to low quality during the monsoon a huge number of roads in the city are washed away and it severely impacts the AMC coffer.  The municipal corporation foresees array of benefits of using plastics waste in road construction such as reduction in discarded plastics bags in the city, protecting the roads washing out in monsoon, reduction in cracks in roads due to melting bitumen in summer, cost effectiveness and significant increase in the income of rag pickers.
  • 28.
  • 29. SR. NO. PROPERTIES PLASTIC ROAD ORDINARY ROAD 1 STABILITY VALUSE MORE LESS 2 BINDING PROPERTY BETTER GOOD 3 SOFTENING POINT LESS MORE 4 PENETRATION VALUE MORE LESS 5 TENSILE STRENGTH HIGH LESS 6 SEEPAGE OF WATER NO YES 7 DURABILITY OF ROAD BETTER GOOD 8 COST OF PAVEMENT LESS NORMAL 9 MAINTENANCE COST ALMOST NIL MORE 10 ENVIRONMENTAL FRIENDLY YES NO  COMPARISON BETWEEN ORDINARY ROADS AND WASTE PLASTIC ROADS. ..
  • 30.  References. . .  Waste Products in Highway Constuctioin - Chunhua IHan, Ph.D.  Butte, W.A., E.M. Kohn and E.G. Scheibel, Highway Binder Materials from Cellulosic and Related Wastes. FHWAReport No. FHWA/RD-130, December 1980.  Terrel, R.L. et al., Evaluation of Wood Lignin as a Substitute or Extender of Asphalt. FHWAReport No. FHWA/RD-80/125, October 1980.  Brock, J. D., and Shaw, D., From Roofing Shingles to Roads. Technical Paper T- 120, Astec Industries, Chattanooga, TN, 1989.  Paulsen, G., Stroup-Gardiner, M., and Epps, J., Roofing Waste in Asphalt Paving Mixtures. ” Center for Construction Materials Research, University of Nevada, Reno, 1988.