Palm Oil Fuel Ash-Based Eco-Efficient Concrete: A Critical Review of the Short-Term Properties

The huge demand for concrete is predicted to upsurge due to rapid construction developments. Environmental worries regarding the large amounts of carbon dioxide emanations from cement production have resulted in new ideas to develop supplemental cementing materials, aiming to decrease the cement volume required for making concrete. Palm-oil-fuel-ash (POFA) is an industrial byproduct derived from palm oil waste’s incineration in power plants’ electricity generation. POFA has high pozzolanic characteristics. It is highly reactive and exhibits satisfactory micro-filling ability and unique properties. POFA is commonly used as a partially-alternated binder to Portland cement materials to make POFA-based eco-efficient concrete to build building using a green material. This paper presents a review of the material source, chemical composition, clean production and short-term properties of POFA. A review of related literature provides comprehensive insights into the potential application of POFA-based eco-efficient concrete in the construction industry today.

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Correlations between Fresh Properties of Self-Consolidating Concrete Including Palm Oil Fuel Ash

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.250-253.409 ◽

2011 ◽

Vol 250-253 ◽

pp. 409-416 ◽

Cited By ~ 5

Author(s):

Md. Safiuddin ◽

Md. Abdus Salam ◽

Mohd Zamin Jumaat

Keyword(s):

Palm Oil ◽

Flow Time ◽

Fresh Properties ◽

Palm Oil Fuel Ash ◽

Self Consolidating Concrete ◽

Slump Flow ◽

Filling Ability ◽

Fuel Ash ◽

Oil Fuel ◽

Passing Ability

Palm oil fuel ash (POFA) has been used successfully as a supplementary cementing material in various types of concrete. In the present study, self-consolidating concrete (SCC) was produced by using POFA as a partial replacement of ordinary portland cement (OPC). In total, sixteen SCC mixes were prepared by varying water to binder (W/B) ratio, POFA content, and high-range water reducer (HRWR). POFA was used by replacing 0–30% of OPC by weight at the W/B ratios ranging from 0.25 to 0.40. The filling ability, passing ability and segregation resistance of various SCC mixes were investigated. The filling ability was determined with respect to slump flow, 50-cm slump flow time, inverted slump cone flow spread and time, and V-funnel flow time. The passing ability was examined with respect to J-ring flow. In addition, the segregation resistance was assessed with regard to sieve segregation index and column segregation factor. Based on the data obtained, the correlations for the fresh properties of SCC were sought. The experimental findings showed strong correlations between most of the fresh properties of SCC.

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Short Term Investigation on Sulphate Resistance of Oil Palm Shell Lightweight Aggregate Concrete Containing Palm Oil Fuel Ash as Partial Cement Replacement

Research Journal of Applied Sciences Engineering and Technology ◽

10.19026/rjaset.11.1679 ◽

2015 ◽

Vol 11 (1) ◽

pp. 91-94

Author(s):

K. Muthusamy ◽

N.A. Zamri

Keyword(s):

Palm Oil ◽

Lightweight Aggregate ◽

Lightweight Aggregate Concrete ◽

Short Term ◽

Palm Oil Fuel Ash ◽

Aggregate Concrete ◽

Oil Palm Shell ◽

Fuel Ash ◽

Partial Cement Replacement ◽

Oil Fuel

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EFFECTIVENESS OF PALM OIL FUEL ASH AS MICRO-FILLER IN POLYMER CONCRETE

Jurnal Teknologi ◽

10.11113/jt.v77.6402 ◽

2015 ◽

Vol 77 (16) ◽

Author(s):

Jahangir Mirza ◽

Nur Hafizah A. Khalid ◽

Mohd Warid Hussin ◽

Mohammad Ismail ◽

Mohamed A. Ismail ◽

...

Keyword(s):

Palm Oil ◽

Agricultural Waste ◽

Silica Sand ◽

Polymer Concrete ◽

Compression Tests ◽

Palm Oil Fuel Ash ◽

Cellulose Structure ◽

Filling Ability ◽

Fuel Ash ◽

Oil Fuel

This paper presents the potential of utilizing an agricultural waste known as palm oil fuel ash (POFA) as micro-filler in polymer concrete (PC). Being a plant with open cellulose structure, such potential has gone untapped due to its tendency to take up excessive resin during the mixing process. This study has invested its filler characterization by first segregating the POFA fillers into fine (ground POFA, GPOFA) and coarse (unground POFA, UPOFA) fillers. GPOFA was paired with calcium carbonate while UPOFA was with silica sand for comparisons. Filler characteristics were studied under microstructural examination; particle size analyzer and morphology. Twenty design mixes of polymer blended and polymer concrete were casted for flowability and compression tests, respectively. Further investigations were carried out after two categories of fillers were incorporated with different filler contents. Test data showed that filler had changed its physical features significantly after surface modification. Also, the finer fillers gave superior filling ability and compressive strength. This study concluded that POFA can be potentially transformed into effective PC filler following some physical modifications and mixing with the appropriate design mix.

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Palm Oil Fuel Ash-Based Eco-Friendly Concrete Composite: A Critical Review of the Long-Term Properties

Materials ◽

10.3390/ma14227074 ◽

2021 ◽

Vol 14 (22) ◽

pp. 7074

Author(s):

Mugahed Amran ◽

Yeong Huei Lee ◽

Roman Fediuk ◽

Gunasekaran Murali ◽

Mohammad Ali Mosaberpanah ◽

...

Keyword(s):

Palm Oil ◽

Environmental Sustainability ◽

Power Plants ◽

Cementitious Materials ◽

Supplementary Cementitious Materials ◽

Palm Oil Fuel Ash ◽

Material Sources ◽

Fuel Ash ◽

Oil Fuel ◽

Electrical Generation

Rapid global infrastructural developments and advanced material science, amongst other factors, have escalated the demand for concrete. Cement, which is an integral part of concrete, binds the various individual solid materials to form a cohesive mass. Its production to a large extent emits many tons of greenhouse gases, with nearly 10% of global carbon (IV) oxide (CO2) emanating from cement production. This, coupled with an increase in the advocacy for environmental sustainability, has led to the development of various innovative solutions and supplementary cementitious materials. These aims to substantially reduce the overall volume of cement required in concrete and to meet the consistently increasing demand for concrete, which is projected to increase as a result of rapid construction and infrastructural development trends. Palm oil fuel ash (POFA), an industrial byproduct that is a result of the incineration of palm oil wastes due to electrical generation in power plants has unique properties, as it is a very reactive materials with robust pozzolanic tendencies, and which exhibits adequate micro-filling capabilities. In this study, a review on the material sources, affecting factors, and durability characteristics of POFA are carefully appraised. Moreover, in this study, a review of correlated literature with a broad spectrum of insights into the likely utilization of POFA-based eco-friendly concrete composites as a green material for the present construction of modern buildings is presented.

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Deformation Behaviour of Glass Fibre Reinforced Concrete Containing Palm Oil Fuel Ash

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.780.33 ◽

2015 ◽

Vol 780 ◽

pp. 33-38

Author(s):

A.S.M.A. Awal ◽

M.Z.A. Majid ◽

S.M. Shirazi ◽

K.Y. Yuan

Keyword(s):

Compressive Strength ◽

Palm Oil ◽

Laboratory Tests ◽

Fibre Reinforced Concrete ◽

Short Term ◽

Palm Oil Fuel Ash ◽

Fuel Ash ◽

Glass Fibre Reinforced ◽

Oil Fuel ◽

Creep And Shrinkage

Palm oil fuel ash (POFA) has been known to be a good pozzolanic material and played an effective role in improving the physical and mechanical properties of concrete. This paper highlights the results obtained from the laboratory tests on compressive strength, modulus of elasticity, creep and shrinkage of glass fibre reinforced concrete (GFRC) containing POFA. Concrete specimens of grade 30 was designed following DoE method where GFRC with 0.5% fibre content was prepared with OPC replaced by 20% POFA by weight. Laboratory tests based on short-term investigation showed that the modulus of elasticity of GFRC containing POFA in association with its compressive strength was slightly lower than that of concrete without POFA. The measured values of creep and shrinkage, however, revealed that the creep and shrinkage strain of GFRC containing POFA were higher than that of concrete with OPC alone. On the basis of short-term investigation, the one-year creep and shrinkage values of both types of concrete were also predicted by extrapolating the data obtained in this study.

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Pemanfaatan Limbah Padat Abu Cangkang dan Serat Kelapa Sawit dari Boiler untuk Pembuatan Bata Beton Ringan

Jurnal Riset Teknologi Industri ◽

10.26578/jrti.v9i2.1710 ◽

2016 ◽

Vol 9 (2) ◽

pp. 120-128

Author(s):

Haspiadi Haspiadi ◽

Kurniawaty Kurniawaty

Keyword(s):

Compressive Strength ◽

Solid Waste ◽

Palm Oil ◽

Absorption Capacity ◽

Water Absorption Capacity ◽

Palm Oil Fuel Ash ◽

Foaming Agent ◽

Fuel Ash ◽

Palm Oil Mill ◽

Oil Fuel

Research of the utilization solid waste of palm oil fuel ash from boiler as row materials for manufacturing light concrete brick has been conducted. The main objective of this study is to investigate the potential use solid waste of palm oil fuel ash from palm oil mill boilers as row materials for manufacturing light concrete brick has recently attracted for an alternative environmentally sustainable application. In this study, light concrete brick made with various proportions of palm oil fuel ash from palm oil mill boilers and sand were fabricated and studied under laboratory scales. Percentage of palm oil fuel ash of 0% as a control, 10%, 20%, 30%, 40%, 50%, 60%, replacement sand, wheras others materials such as Portland cement, lime, gypsum, foaming agent and aluminium with the numbers constant. The quality of light concreate brick were applied followed by the compressive strength test, density and water absorption capacity. The study discovered that the compressive strength for all composition meet the recommended value to light structural of 6.89 MPa as prescribed in SNI 03-3449-2002. In the same manner density of light concrete brick for all proportion under the maximum density recommended value of 1400 Kg/m3 according to SNI 03-3449-2002. While water absorption capacity of increased by the increasing use of ashes. Therefore, palm oil fuel ash from boiler can be used as raw material for the light concrete brick which is environmental friendly because using solid waste and also an alternative handling solid waste.ABSTRAKPenelitian pemanfaatan limbah padat abu cangkang dan serat kelapa sawit dari boiler sebagai bahan baku pembuatan bata beton ringan telah dilakukan. Tujuan dari penelitian ini adalah pemanfaatan limbah padat abu boiler berbahan bakar cangkang dan serat sebagai bahan pembuatan bata beton ringan sebagai salah satu alternatif pengelolaan lingkungan yang bekelanjutan. Dalam penelitian ini, bata beton ringan dibuat dengan berbagai komposisi abu boiler dan pasir yang diproduksi dalam skala laboratorium. Persentase dari abu berturut-turut 0% sebagai kontrol, 10%, 20%, 30%, 40%, 50% dan 60% mensubtitusi pasir, sedangkan bahan lain yaitu semen, kapur, gypsum, foaming agent serta aluminium pasta dengan jumlah tetap. Mutu bata beton ringan yang diujikan adalah kuat tekan, bobot jenis dan daya serap air. Hasil penelitian menunjukkan bahwa kuat tekan untuk semua komposisi memenuhi batas minimum yang dipersyaratkan untuk stuktural ringan yaitu 6,89 MPa sesuai SNI 03-3449-2002. Demikian pula bobot jenis dari bata ringan yang dihasilkan masih dibawah dari batas maksimum yang direkomendasikan SNI 03-3449-2002 yaitu maksimal 1400 Kg/m3. Sedangkan daya serap air mengalami kenaikan dengan naiknya jumlah abu yang digunakan . Limbah padat abu boiler berbahan bakar cangkang dan serat sawit dapat dimanfaatkan sebagai bahan baku pembuatan bata beton ringan yang ramah lingkungan dengan memanfaatkan limbah dan menjadi salah satu alternatif pengelolaan limbah. Kata kunci : Abu cangkang kelapa sawit, bata beton ringan, bobot jenis, daya serap air, limbah, kuat tekan

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