scholarly journals Gas Emission of Palm Oil Waste Bricks During Firing Process at Different Heating Rates

2018 ◽  
Vol 7 (4.30) ◽  
pp. 393
Author(s):  
Noor Amira Sarani ◽  
Aeslina Abdul Kadir ◽  
Hamidah Syd Othman
Keyword(s):  
Palm Oil ◽  
Environmental Protection Agency ◽  
Palm Kernel ◽  
Ambient Air ◽  
Quality Standard ◽  
Pollutant Emission ◽  
Firing Process ◽  
Heating Rates ◽  
Gas Emission ◽  
Palm Kernel Shell

The demand for brick materials is expected to increase rapidly. However, pollutant emission during the firing process becomes a threat to the human and environment. Therefore, this study is focusing on the release of pollutant gasses during firing manufactured bricks. The bricks were incorporated with 5% of palm oil waste (palm kernel shell and empty fruit bunches) and fired at different heating rates: 1°C/min, 3°C/min and 5°C/min. All samples were fired until it reached 1050°C and retained for 2 hours soaking time. The gas emission measured during firing process includes carbon monoxide (CO), carbon dioxide (CO2), nitrogen oxide (NO) and sulfur dioxide (SO2). The results of estimated total emission (ETE) of gasses were compared to control bricks and palm oil waste brick. The result obtained has shown that increased heating rates cause decreased in gas emission, especially for CO2 and CO. Therefore, this study determined that pollutant gasses are least minimal at high heating rates (5°C/min). As a conclusion, several pollutant gasses did not comply with the federal Clean Air Act’s National Ambient Air Quality Standard (NAAQS) set by Environmental Protection Agency.

Insight into Co-pyrolysis of Palm Kernel Shell (PKS) with Palm Oil Sludge (POS): Effect on Bio-oil Yield and Properties

2019 ◽  
Vol 11 (11) ◽  
pp. 5877-5889 ◽  
Author(s):  
Harvindran Vasu ◽  
Choon Fai Wong ◽  
Navin Raj Vijiaretnam ◽  
Yen Yee Chong ◽  
Suchithra Thangalazhy-Gopakumar ◽  
...  
Keyword(s):  
Palm Oil ◽  
Palm Kernel ◽  
Oil Sludge ◽  
Oil Yield ◽  
Palm Kernel Shell ◽  
Bio Oil ◽  
Insight Into

scholarly journals Facile Fabrication of Biochar from Palm Kernel Shell Waste and Its Novel Application to Magnesium-Based Materials for Hydrogen Storage

Materials ◽  
2020 ◽  
Vol 13 (3) ◽  
pp. 625 ◽  
Author(s):  
Martin Luther Yeboah ◽  
Xinyuan Li ◽  
Shixue Zhou
Keyword(s):  
Hydrogen Storage ◽  
Palm Kernel ◽  
Cost Effective ◽  
Ambient Air ◽  
Decomposition Temperature ◽  
Scanning Calorimetry ◽  
Experimental Conditions ◽  
Palm Kernel Shell ◽  
Cost Effective Method ◽  
Facile Fabrication

In this investigation, an easily-operated and cost-effective method is utilized to synthesize biochar in ambient air, and the prepared biochar is used in a novel manner as a milling aid for fabricating Mg-biochar composites for hydrogen storage. X-ray diffractometry reveals that increasing the content of palm kernel shell biochar (PKSBC) from 5 wt.% to 20 wt.% enhances the hydrogen absorption performance by increasing the conversion of Mg into MgH2 from 83% to 93%. A 40 °C reduction in decomposition temperature of MgH2 is recorded from differential scanning calorimetry curves when the content of PKSBC is increased to 20 wt.%. Magnesium is milled and hydrided under the same experimental conditions and used as a reference material. It is proposed that these property enhancements can be attributed to the fact that PKSBC acts as an anti-sticking agent for elemental Mg powders, helping in the achievement of a more dispersed composite with reduced Mg particle size due to its layered-like carbon structure.

Regulating Transportation in New Nonattainment Areas Under the 8-Hour Ozone Standard

2003 ◽  
Vol 1842 (1) ◽  
pp. 39-46 ◽  
Author(s):  
Jonathan Makler ◽  
Arnold M. Howitt
Keyword(s):  
North Carolina ◽  
Environmental Protection Agency ◽  
Ground Level ◽  
Ambient Air ◽  
Quality Standard ◽  
Ground Level Ozone ◽  
History Of ◽  
Ambient Air Quality Standard ◽  
Institutional Challenges ◽  
Transportation Agencies

The U.S. Environmental Protection Agency promulgated a new National Ambient Air Quality Standard for ground-level ozone in July 1997, beginning a process that (after some litigation-induced delays) will soon lead to the designation of new nonattainment areas that will be subject to the transportation conformity regulations. The history of the 8-h ozone standard is reviewed, the process of designating the boundaries of new nonattainment areas is described, and the types and geographic locations of the new nonattainment areas are suggested. Drawing on previous research, the institutional challenges that will face the new and expanded nonattainment areas are explored. The experiences of Georgia, North Carolina, and Oklahoma in preparing for implementation of the new standard are presented. Finally, several recommendations for transportation agencies involved in implementing the new standards are given.

THE EFFECT OF OIL PALM KERNEL SHELL IN PRODUCING DIFFERENT TYPES OF POFA BASED MORTAR

2015 ◽  
Vol 77 (12) ◽  
Author(s):  
Nor Hasanah Abdul Shukor Lim ◽  
Mohd Warid Hussin ◽  
Abdul Rahman Mohd. Sam ◽  
Mostafa Samadi ◽  
Mohamed A. Ismail ◽  
...  
Keyword(s):  
Palm Oil ◽  
Oil Palm ◽  
Palm Kernel ◽  
High Volume ◽  
Strength Development ◽  
Palm Oil Fuel Ash ◽  
Palm Kernel Shell ◽  
Fuel Ash ◽  
Different Types ◽  
Oil Fuel

This paper presents the utilization of palm oil fuel ash and oil palm kernel shell as cement and sand replacement, respectively in the production of palm oil fuel ash based mortar mixes as part of new and innovative materials in the construction industry. The study includes basic properties such as water absorption, density, compressive strength, and microstructure test with regards to variations in the mix design process. In order to get better performance in terms of strength development, the ash used was subjected to heat treatment and grounded to the size of less than 2 µm. High volume of 80% palm oil fuel ash was used as cement replacement, while 25%, 50%, 75%, and 100% of oil palm kernel shell was used as sand replacement. The results indicated that the density of the mortar decreases with increasing volume of oil palm kernel ash as sand replacement. Three different types of mortar were produced with different percentages of oil palm kernel shell, which was high strength, medium strength, and low strength lightweight mortars.

High Quality Solid Biofuel Briquette Production From Palm Oil Milling Solid Wastes

2009 ◽  
Author(s):  
Abd Halim Shamsuddin ◽  
Mohd Shahir Liew
Keyword(s):  
Moisture Content ◽  
Palm Oil ◽  
Palm Kernel ◽  
Calorific Value ◽  
Solid Wastes ◽  
Biomass Fuels ◽  
High Quality ◽  
Palm Kernel Shell ◽  
Empty Fruit Bunches ◽  
Solid Biofuel

Malaysia has about 4.2 million hectares of oil palm plantation. The palm oil milling industry has over 400 mills throughout the country with total milling capacity of 82 million tonnes fresh fruit bunches, FFB, per year. In 2003, the amount of FFB processed was 67 million tonnes, which generated solid wastes in the forms of empty fruit bunches, EFB (19.43 million tonnes), mesocarp fibres (12.07 million tonnes) and palm kernel shell (4.89 million tonnes). These wastes has moisture content of 60–70% for EFB and mesocarp fibre, and 34–40% for palm kernel shell, and calorific value of 5.0 – 18.0 Mj/kg. A processing technology was developed to process these low quality biomass fuels into high quality solid biofuel briquettes with moisture content in the range 8–12%. Depending on the formulations and the sources of the raw biomass, the final solid biofuel briquettes can have calorific values in the range of 18–25 Mj/kg. The production of the solid biofuel briquettes would be an attractive financial advantage for full exploitation of biomass fuels. Logistic problems due to the disperse nature of the biomass resources would significantly be addressed.

scholarly journals BEBAN EMISI AKTIVITAS LTO PESAWAT UDARA DI BANDAR UDARA INTERNASIONAL I GUSTI NGURAH RAI BALI

2015 ◽  
Vol 9 (1) ◽  
pp. 72 ◽  
Author(s):  
Yohanis Umbu Kaleka ◽  
I Wayan Budiarsa Suyasa ◽  
M.S. Mahendra
Keyword(s):  
Ambient Air ◽  
Quality Standard ◽  
Activity Level ◽  
The Other ◽  
Air Concentration ◽  
Gas Emission ◽  
International Airport ◽  
Statistical Analysis Method ◽  
Emission Activity ◽  
Co Emission

I Gusti Ngurah Rai Bali International Airport is the second highest airport in activity level in Indonesia. Flight activity in this airport increases every year, with an increase of 20% from 2011 until the end of 2012. The research aimed to identify how much the LTO (Landing-Take-Off) emission activity in I Gusti Ngurah Rai Bali International Airport. The purpose of this research was to identify how much the emission is and the effect of LTO activities towards the ambient air condition of CO and NOx around the airport. Three measurement points and three days recent flight were applied to understand the emission spreading characteristic in every LTO phases. The three phases of LTO which are consisted of take-off phase, taxi in phase and landing phase, were the main focus of this research. The three recent flights were on Monday 5 of May, on Wednesday 7 of May and on Saturday 10 of May in 2014. Regression bifilar linear statistical analysis method was employed to identify the effect and how big the CO and NOx emission contribution towards the ambient air quality. The results of this research showed that the emission of aircraft activity in LTO phases was effected by the ambient air concentration of CO and NOx. It was proved with the result from F test simultaneous with significant level average 0,033 < 0,005 and with r value that exists between 0,77 – 0,97 with mean contribution was 79,1%. Take-off phase was the phase that produced the biggest NOx gas emission compared to the other phases. When the aircraft did the take-off phase, the thrust was used reached 100%, the purpose was to produce the big energy. The combustion that happened in take-off phase in aircraft machine classified in perfect combustion, also this thing effected the phase to produce the smallest CO gas emission compared with the other phases. Taxi in phase was a phase that produced the biggest CO emission between the two other phases, it was happened because the thrust needed just 7% only so the combustion in aircraft machine classified in imperfect combustion and it was effected the CO emission was increasingly while the landing phase was the phase that produced the smallest CO and NOx gas emission compared to the other phases. Measurement results of the CO and NOx concentration in every point in three days recent flight was still under the quality standard that has been settled appropriate in Government Act number 41 year 1999..

scholarly journals Empty fruit bunch (EFB) gasification in an entrained flow gasification system

2017 ◽  
Vol 19 ◽  
pp. 43
Author(s):  
Wan Muhamad Syafiq Wan Ismail ◽  
Ruwaida Abdul Rasid
Keyword(s):  
Palm Oil ◽  
Chemical Engineering ◽  
Palm Kernel ◽  
Empty Fruit Bunch ◽  
Biomass Waste ◽  
Engineering Research ◽  
Palm Kernel Shell ◽  
Entrained Flow ◽  
Syngas Production ◽  
Entrained Flow Gasification

<p>Biomass has become one of the most commonly used renewable sources of energy in the last two decades. Empty fruit bunch (EFB) is one of the examples for the biomass that is used as a renewable energy source. From the palm oil processing industry, only 10% are the final products such as palm oil and palm kernel oil, while the remaining 90% are harvestable biomass waste in the form of EFB, palm kernel shell (PKS) and oil palm frond (OPF). This overload amount of biomass waste will cause an abundance of waste which will also affect the environment. To convert EFB into usable energy in ways that are more efficient, less polluting, and economical, gasification has merge as one of the most favorable technological innovations in synthesis gas (syngas) production. The main aim of this work is to study the EFB gasification in an entrained flow gasification process based on the different operating temperature (700<sup>°</sup>C to 900<sup>°</sup>C) and equivalence ratio, ER (0.2 – 0.4), evaluated based on the production of gases such as hydrogen (H<sub>2</sub>), carbon monoxide (CO), carbon dioxide (CO<sub>2</sub>) and methane (CH<sub>4</sub>). It was found that as the temperature was increased from 700<sup>°</sup>C to 900<sup>°</sup>C, the production of H<sub>2</sub> and CO<sub>2</sub> increased while CO was decreased. The optimum ER value of 0.30 was found to attain the highest Cold Gas Efficiency (CGE) value of 74.03% at 900°C.</p><p>Chemical Engineering Research Bulletin 19(2017) 43-49</p>

Biorefinery for the Production of Biodiesel, Hydrogen and Synthesis Gas Integrated with CHP from Oil Palm in Malaysia

2016 ◽  
Vol 11 (4) ◽  
pp. 305-314 ◽  
Author(s):  
Bamidele V. Ayodele ◽  
Chin Kui Cheng
Keyword(s):  
Palm Oil ◽  
Oil Palm ◽  
Energy Demand ◽  
Palm Kernel ◽  
Material Balance ◽  
Biodiesel Production ◽  
Total Production ◽  
Palm Kernel Shell ◽  
Whole Process ◽  
By Products

Abstract Malaysia is presently the world’s largest exporter of palm oil with total production of 19.22 million tonnes of crude palm oil (CPO) in 2013. Aside CPO, by-products such as empty fruit bunch (EFB), palm kernel shell (PKS), palm kernel oil (PKO), palm kernel cake (PKC) and pressed palm fibres (PPF) are produced from the palm oil mills. These biomasses can be used as potential feedstock for the production of biofuels, biogas and bioelectricity. One of the ways to fully harness the potentials of these biomasses is by employing the biorefinery concepts where all the products and by-products from oil palm are utilized for production of valuable bio-products. In this study, technological feasibility of biorefinery for the production of biodiesel, hydrogen, Fischer-Tropsch liquids (FTLs) integrated with combined heat and power (CHP) generation was investigated. Flowsheet was designed for each of the processes using Aspen HYSYS® v 8.0. Material balance was performed on a palm oil mill processing 250 tonnes per year of fresh fruit palm (FFP). Results from the material balance shows that 45.1 tonnes of refined bleached deodorized palm oil (RDBPO) and 52.4 tonnes of EFB were available for the production of biodiesel, hydrogen, FTLs and the CHP generation. The annual plant capacity of the biodiesel production is estimated to be 26,331.912 tonnes. The overall energy consumption of the whole process was estimated to be 36.0 GJ/h. This energy demand was met with power generated from the CHP which is 792 GJ/h leaving a surplus of 756 GJ/h that can be sold to the grid. The process modelling and simulation of the biorefinery process shows technological feasibility of producing valuable products from oil palm.

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