Effects of Different Storage Techniques on Round-Baled Orchard-Pruning Residues

Baled pruning residue could be a valid solution to reduce the storage surface area in thermal and electrical power station. This study aimed to analyze the storage performance of pruning residues baled by a round baler considering three orchard tree species (apple, peach, and kiwi) and three different techniques (uncovered, under roof, and wrapped). The storage parameters considered were: moisture content, dry mass, and wood energy content of the material. The initial moisture content of the tree orchard specie (apple, peach, and kiwi) was different: lower for peach (41%) and higher for kiwi (51%). At the end of the storage period, all bales (covered and uncovered) obtained similar values to that of the air (about 20%); wrapped bales have highlighted no moisture content variation. The tested tree species showed a similar initial high heating value (18.70 MJ·kg−1), but a different initial low heating value: lower for kiwi (7.96 MJ kg−1) and higher for peach (10.09 MJ·kg−1). No dry matter losses were observed in all test. Stored pruning residues in bales show good benefits in term of “biofuel” quality independent of the techniques adopted expect for the wrapping system that do not permit adequate drying of the biomass.

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Energy Content Of The Domestic Wastewater Sludge Dried In The Thermal Dryer

MATEC Web of Conferences ◽

10.1051/matecconf/201822503008 ◽

2018 ◽

Vol 225 ◽

pp. 03008

Author(s):

M.S. Zakaria ◽

Suhaimi Hassan ◽

M.N. Faizairi

Keyword(s):

Moisture Content ◽

Energy Content ◽

Initial Moisture Content ◽

Domestic Wastewater ◽

Wastewater Sludge ◽

Screw Conveyor ◽

Heating Value ◽

Operating Condition ◽

Short Period ◽

Disposal Problem

Domestic Wastewater Sludge (DWS) is considered as one of the largest contributor waste in Malaysia. Converting this waste as an alternative fuel can eliminate the disposal problem and reduce the environmental issue that causes by this waste. However, the initial moisture content in DWS is around 90% and in order to convert this waste into useful solid fuel, the moisture content of this waste must be reduced to 20% and below. Thermal dryer is one of the efficient dryer for the DWS that is capable of drying the huge volume of DWS in a short period of time. This study focused on the energy usage by the thermal dryer with several operating condition and the effect to the Higher Heating Value (HHV) of DWS. Based on the study, the higher heating value of DWS obtained from the experimental of thermal dryer found to be comparable with the results obtained from other biomass types which is around 9-15.86 MJ/kg. After analysis and comparison of the energy from the dried DWS and energy consumed by the dryer, the best operating condition of the thermal dryer was at 275 kW of power rating with speed of 30 and 10 rpm (revolution per minute) of the screw conveyor in the feeder and dryer respectively.

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The Effects of Mixing Pulp and Paper Mill Sludge Into Wood Bark on Storage-Related Environmental Impacts and Heating Value

10.21203/rs.3.rs-615656/v1 ◽

2021 ◽

Author(s):

Juha Oksanen ◽

Riikka Keskinen ◽

Jaakko Heikkinen ◽

Janne Kaseva ◽

Kimmo Rasa

Keyword(s):

Moisture Content ◽

Environmental Impacts ◽

Oxygen Demand ◽

Storage Period ◽

Paper Mill ◽

Dry Mass ◽

Biological Degradation ◽

Pulp And Paper Mill ◽

Heating Value ◽

Degradation Activity

Abstract The pulping industry generates vast amounts of bark residues and wastewater treatment sludges, which are combined and stored for varying periods in stacks, often in the open air, prior to utilization for energy via combustion. In order to optimize the storage strategy, the effects of incorporating sludge into bark on heating value and storage-related environmental impacts were investigated in laboratory and outdoor studies. Biological degradation activity was found to be higher in treatments containing 25% sludge (B75S25) and 50% sludge (B50S50) on a fresh mass basis, in comparison with pure bark (B100). Mean monthly dry mass loss was 2.1% (B100), 3.3% (B75S25), and 3.7% (B50S50) in the laboratory and 2.7%, 4.2%, and 4.8%, respectively, outdoors. Sludge addition was found to maintain degradation activity at low temperatures (+ 3°C). Co-storage of sludge and bark led to loss of energy, mainly due to increased loss of biomass and increased moisture content. Overall, biomass moisture content governed the heating value. Cumulative methane emissions over the storage period were higher from the sludge-containing treatments than from pure bark, but emissions of nitrogen-containing gases (N2O and NH3) were negligible throughout. Sludge addition roughly halved the cumulative chemical oxygen demand (COD) of leachate and minimized its concentration of phosphate-P. However, larger amounts of inorganic elements were released to the percolating water from the sludge-containing treatments. Overall, these results indicate that finding alternative uses for the sludge fraction would be beneficial.

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Autothermal biodrying of municipal solid waste with high moisture content

Chemical Papers ◽

10.2478/s11696-009-0118-3 ◽

2010 ◽

Vol 64 (2) ◽

Cited By ~ 10

Author(s):

Agnieszka Zawadzka ◽

Liliana Krzystek ◽

Stanisław Ledakowicz

Keyword(s):

Moisture Content ◽

Municipal Solid Waste ◽

Solid Waste ◽

Energy Content ◽

Plastic Material ◽

Initial Moisture Content ◽

Tubular Reactor ◽

Calorific Value ◽

High Energy ◽

Total Capacity

AbstractTo carry out autothermal drying processes during the composting of biomass, a horizontal tubular reactor was designed and tested. A biodrying tunnel of the total capacity of 240 dm3 was made of plastic material and insulated with polyurethane foam to prevent heat losses. Municipal solid waste and structural plant material were used as the input substrate. As a result of autothermal drying processes, moisture content decreased by 50 % of the initial moisture content of organic waste of about 800 g kg−1. In the tested cycles, high temperatures of biodried waste mass were achieved (54–56°C). An appropriate quantity of air was supplied to maintain a satisfactory level of temperature and moisture removal in the biodried mass and high energy content in the final product. The heat of combustion of dried waste and its calorific value were determined in a calorimeter. Examinations of pyrolysis and gasification of dried waste confirmed their usefulness as biofuel of satisfactory energy content.

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Pola Penurunan Viabilitas dan Pengembangan Metode Pendugaan Vigor Daya Simpan Benih Pepaya (Carica Papaya L.)

Jurnal Hortikultura Indonesia ◽

10.29244/jhi.7.3.146-154 ◽

2017 ◽

Vol 7 (3) ◽

pp. 146

Author(s):

Astryani Rosyad ◽

M. Rahmad Suhartanto ◽

Abdul Qadir

Keyword(s):

Moisture Content ◽

Aging Time ◽

Seed Quality ◽

Initial Moisture Content ◽

Accelerated Aging ◽

Storage Period ◽

Seed Storage ◽

Seed Vigor ◽

Develop Model ◽

Papaya Seed

ABSTRACT Information of seed quality during storage can be determined through the actual storage and storability vigor estimation. This study aimed at comparing effective accelerated aging method between physical and chemical, and studying the seed deterioration during storage in ambient (T =28-30 0C, RH=75-78%) and AC (T =18-20 0C, RH =51-60%) condition with three levels of initial moisture content (8-10%, 10-12%, and 12-14%) for 20 weeks. The final objective of this research was to develop model for storability vigor of papaya seed. Two experiments, accelerated aging and seed storage were conducted at Seed Laboratory, Department of Agronomy and Horticulture, Bogor Agricultural University from October 2015 to May 2016. A completely randomized design with nested factors and four replications was applied to both experiments. The results showed that physical accelerated aging using IPB 77-1 MMM machine was more effective than chemical accelerated aging using IPB 77-1 MM machine for papaya seed. The viability of seed stored in AC condition remained high until the end of the storage period, whereas it declined at 16 week storage period in the ambient condition. The viability of seed with initial moisture content of 12-14% declined faster than that of initial moisture content of 8-10% after 18 week storage periode. The model used to estimate the storability vigor of papaya seed accurately was the equation y = a + b expcx where y : storability vigor estimation, x : aging time and a,b,c : constant value. Simulation of storability vigor estimation with constant value of a, b, c and input of aging time can estimate storability seed vigor in actual storage. Keywords: accelerated aging, IPB 77-1 MM machine, IPB 77-1 MMM machine, seed storage, simulationABSTRAK Informasi mutu benih selama penyimpanan dapat diketahui melalui penyimpanan secara aktual dan pendugaan vigor daya simpan. Penelitian ini bertujuan untuk membandingkan metode pengusangan cepat yang efektif antara fisik dengan kimia serta mempelajari pola penurunan viabilitas benih selama penyimpanan aktual pada kondisi simpan kamar (suhu =28-30 0C, RH =75-78%) dan AC (suhu =18-20 0C, RH =51-60%) dengan tiga tingkat kadar air awal (8-10%, 10-12%, dan 12-14%) selama 20 minggu. Tujuan akhirnya adalah membangun model vigor daya simpan benih pepaya. Penelitian pengusangan cepat dan penyimpanan dilakukan pada bulan Oktober 2015 sampai Mei 2016 di Laboratorium Benih, Departemen Agronomi dan Hortikultura, Institut Pertanian Bogor. Kedua penelitian menggunakan rancangan acak lengkap tersarang dengan empat ulangan. Hasil penelitian menunjukkan bahwa pengusangan cepat secara fisik dengan alat IPB 77-1 MMM lebih efektif daripada pengusangan kimia dengan alat IPB 77-1 MM untuk benih pepaya. Viabilitas benih yang disimpan pada kondisi AC tetap tinggi hingga akhir periode simpan, sedangkan pada kondisi kamar penurunan viabilitas dimulai pada periode simpan 16 minggu. Benih yang disimpan dengan tingkat KA awal sebesar 12-14% lebih cepat mengalami penurunan viabilitas mulai periode simpan 18 minggu dibandingkan dengan benih dengan KA awal 8-10%. Hasil penelitian juga menunjukkan terdapat korelasi yang erat antara pola kemunduran benih pada pengusangan cepat dan penyimpanan aktual, sehingga model pendugaan vigor daya simpan (y) berdasarkan waktu pengusangan (x) dapat disusun dengan persamaan y = a + b expcx. Simulasi pendugaan vigor daya simpan dengan nilai konstanta a, b, dan c serta input waktu pengusangan dapat menduga vigor daya simpan benih selama penyimpanan aktual. Kata kunci: alat IPB 77-1 MM, alat IPB 77-1 MMM, pengusangan cepat, penyimpanan benih, simulasi

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The Technological Investigations Of Manufacturing Of Energy Chips

Environment Technology Resources Proceedings of the International Scientific and Practical Conference ◽

10.17770/etr2011vol1.908 ◽

2015 ◽

Vol 1 ◽

pp. 220

Author(s):

Ziedonis Miklašēvičs

Keyword(s):

Moisture Content ◽

Dry Mass ◽

Quality Parameters ◽

Heating Value ◽

Long Term Storage ◽

Lower Heating Value ◽

Term Storage ◽

Lower Heating

The methodology in Latvia forest industry provide to determine the quality of energy chips only in long- term storage places before selling. Due to the lack of hard empirical data about the quality parameters of energy chips in different phases of manufacturing process, this research paper consists of: - the identification and analyses of the factors that influenced the values of energy chips quality features such as: bulk density, moisture content, ash content, higher and lower heating value according to actual moisture content and per dry mass of the chips; - the methodology for determination the quality parameters of energy chips by analysis the wood moisture content and by choice the method of the manufacturing of energy chips.

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The Effect of Initial Moisture Content, Packaging and Storage Period on Succinate Dehydrogenase and Cytochrome Oxidase Activity of Soybean Seed

BIOTROPIA ◽

10.11598/btb.2010.17.1.56 ◽

2010 ◽

Vol 17 (1) ◽

Keyword(s):

Moisture Content ◽

Succinate Dehydrogenase ◽

Cytochrome Oxidase ◽

Oxidase Activity ◽

Initial Moisture Content ◽

Soybean Seed ◽

Storage Period ◽

Cytochrome Oxidase Activity ◽

And Storage

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Effect of Pads and Thickness of Paddy on Moisture Removal under Sun Drying

Agricultural Science Digest - A Research Journal ◽

10.18805/ag.d-327 ◽

2021 ◽

Author(s):

A. Narmilan ◽

G. Niroash ◽

M.I.M. Mowjood ◽

A.T.A. Akram

Keyword(s):

Sri Lanka ◽

Moisture Content ◽

Removal Rate ◽

Initial Moisture Content ◽

Storage Period ◽

Moisture Removal ◽

Drying Time ◽

Sun Drying ◽

Regular Time ◽

Paddy Farmers

Background: Sun drying is a popular post-harvest operation to maintain rice quality during the storage period. Farmers use different pads and thicknesses for sun drying of paddy in Ampara district, Sri Lanka. A study was conducted to evaluate the suitability and effectiveness of the drying pad and thickness as practiced by local paddy farmers during the sun drying process.Methods: The grain with an initial moisture content of 28% (dry basis) was sun dried with four types of drying pads and five levels of thickness of grain. This experiment was conducted between 8.30 am and 4.30 pm at the South Eastern University of Sri Lanka in August 2020. The moisture contents of the grain were measured at regular time intervals.Result: It was found that the duration of drying of paddy from 28% to 13% moisture content on a dry basis was 300 to 540 minutes depending upon the drying pad and thickness. The tarpaulin is reasonable at shallow thickness with less time to reach the necessary moisture level than other drying pads. Black polythene and fertilizer bag can be utilized for sun drying of paddy at 4 cm thickness with 130 minutes. It was found that with an increase in the thickness of paddy from 0.5 cm to 4 cm, the drying time increases. A statistically significant interaction was obtained between drying pads and thickness level on moisture removal of paddy. Therefore, the moisture removal rate differs with the drying pad and thickness of the paddy under open sun drying.

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Seed Germination of Enterolobium contortisiliquum (Vell.) Morong. (Fabaceae) under Different Temperatures and Drying Method

Journal of Scientific Research and Reports ◽

10.9734/jsrr/2021/v27i1130458 ◽

2021 ◽

pp. 54-59

Author(s):

Natália Marinho Silva Crisóstomo ◽

Lorraynne Gabrielly Vieira dos Santos ◽

Luan Danilo Ferreira de Andrade Melo ◽

João Luciano de Andrade Melo Junior ◽

Larice Bruna Ferreira Soares ◽

...

Keyword(s):

Seed Germination ◽

Moisture Content ◽

Tree Species ◽

Wood Quality ◽

Initial Moisture Content ◽

Drying Method ◽

Plant Propagation ◽

Agricultural Engineering ◽

Fluorescent Lamps ◽

Different Temperatures

Enterolobium contortisiliquum (Vell.) Morong a tree commonly known as anglerfish, monkey ear and timbaúva. Due to its wood quality, this tree species is widely used in naval and civil constructions, toys and furniture frames, and can also be used for urban afforestation and restoration of degraded areas. The objective of this work was to standardize the best temperature conditions for conducting the germination tests of E. contortisiliquum seeds under laboratory conditions, considering the fact that the seeds come from coastal tropical Brazil, and to evaluate the desiccation tolerance. The experiments were carried out at the Plant Propagation Laboratory of the Agricultural Engineering and Sciences Campus (CECA) of the Federal University of Alagoas (UFAL), located in the municipality of Rio Largo, Alagoas, Brazil. The design of the experiment was fully randomized, with four repetitions of 25 seeds per treatment. In test I: The newly harvested seeds were subjected to constant temperatures of 5, 10, 15, 20, 25, 30, 35 and 40ºC and alternating temperatures of 20-30ºC, with an eight-hour photoperiod, simulated by four fluorescent lamps 20W daylight type. In trial II: The seeds were divided into two lots. The first was the control (initial moisture content). The second was subjected to slow drying on silica gel. A constant temperature of 30ºC is recommended for the germination and vigor test of E. contortisiliquum seeds. The critical means water content for seeds of this species is below 5%.

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Simulation of Green and Clean Electrical Power Generation of a 500 Ton per Day Waste Incineration Plant with High Moisture Content and Low Heating Value

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.799-800.1244 ◽

2015 ◽

Vol 799-800 ◽

pp. 1244-1248

Author(s):

Somrat Kerdsuwan ◽

Krongkaew Laohalidanond

Keyword(s):

Moisture Content ◽

Developing Country ◽

Electrical Power ◽

Waste Incineration ◽

Clean Energy ◽

Waste To Energy ◽

High Moisture Content ◽

High Moisture ◽

Heating Value ◽

The Impact

With the increasing amount of waste together with the high development of the country, the high amount of waste needed to be treated properly in order to lower the impact to the environment. Waste to Energy through incineration is considered as the appropriated technology to convert green and clean energy from discard matters, especially for the waste that has the mixing composition and has not segregate its composition in the developing country. Therefore, it is essential to simulate its combustion process to see how much of electrical power that can be generated and purpose the appropriated technic in order to improve its efficiency. This research deals with the process simulation of using incineration technology with high moisture content and low heating value in developing country. The simulation of 500 ton per day incineration technology was conducted by the unit operation in Aspen Plus® program in order to forecast the capacity of electricity production and the contaminants in flue gas emission. It was found that, even high moisture content and low heating value of waste, incineration can be one of the solutions to dispose waste properly and can recover green and clean energy in the form of electricity ranging from 3.78-6.29 MWe depending on waste’s quality. This green and clean energy recovery from waste could be used to reduce the using of fossil fuel in order to mitigate the emission of the greenhouse gas to atmosphere.

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Moisture and energy content of fire-burnt trees for bioenergy production: A case study of four tree species from northwestern Ontario

The Forestry Chronicle ◽

10.5558/tfc87042-1 ◽

2011 ◽

Vol 87 (1) ◽

pp. 42-47 ◽

Cited By ~ 7

Author(s):

Steven Hosegood ◽

Mathew Leitch ◽

Chander Shahi ◽

Reino Pulkki

Keyword(s):

Moisture Content ◽

Forest Fires ◽

Tree Species ◽

Energy Content ◽

Calorific Value ◽

Average Moisture Content ◽

Fuel Quality ◽

Bioenergy Production ◽

Northwestern Ontario ◽

Burnt Areas

With the current energy reform, the Ontario government has taken an initiative to phase out coal-fired generatingstations by 2014, and replace coal with biomass as feedstock at the Atikokan Generating Station. This switch to greenenergy production has opened a new avenue of income for mills and biomass-harvesting companies. However, as theneed for biomass increases, harvesting residues may no longer satisfy the needs of cogeneration facilities and new sourcesmay be sought. A potential source of woody biomass in Ontario is from forest fires. On average, an area of 35 460 ha or3 868 034 m3 of wood is devastated by wildfire every year in the Area of the Undertaking in Ontario and has the potentialto be salvaged. However, the fuel quality and feasibility of salvaging wildfire-burnt areas for bioenergy production innorthern Ontario has not been investigated so far. In this study, five different-aged fires in the MNR Thunder Bay District—12, 18, 24, 37, and 52 months old—were sampled for moisture content and calorific value of the wood. This samplingwas done across four of the most prolific tree species grown in northwestern Ontario—white birch, trembling aspen,balsam fir, and black spruce. The average moisture content (dry weight basis) of the five fires ranged from 27.1% to 34.9%and the average calorific value from 19.0 MJ/kg to 21.1 MJ/kg. Significant differences in moisture content were foundbetween the species and the ages of fire. Hardwood species had significantly higher moisture content compared to softwoods.The results display that wildfire-burnt areas have the potential to supply good-quality fuel for bioenergy productionin northwestern Ontario. Key words: biomass, wildfire-burnt areas, bioenergy production, moisture content, calorific value, northern Ontario

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