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ارزیابی پتانسیل منابع زیست توده در استان خراسان رضوی به منظور تولید زیست انرژی | ||
محیط شناسی | ||
مقاله 7، دوره 39، شماره 2، شهریور 1392، صفحه 73-82 اصل مقاله (520.27 K) | ||
نوع مقاله: مقاله پژوهشی | ||
شناسه دیجیتال (DOI): 10.22059/jes.2013.35415 | ||
نویسندگان | ||
افسانه امینیان* 1؛ محمدحسین عباسپور فرد2؛ محمدحسین آق خانی؛ محمدحسین عدالت3 | ||
1دانشجوی کارشناسی ارشد مکانیزاسیون کشاورزی، دانشگاه فردوسی مشهد | ||
2دانشیار گروه ماشینهای کشاورزی، دانشگاه فردوسی مشهد | ||
3کارشناس ارشد مکانیک ماشینهای کشاورزی، دانشگاه فردوسی مشهد | ||
چکیده | ||
هم اکنون، مصرف بیرویه انرژیهای تجدیدناپذیر مانند زغال سنگ، گاز و نفت باعث شده تهدیدات جدی زیست محیطی از جمله تغییر آب و هوا و افزایش آلودگی هوا پدیدار شود. به همین دلیل لزوم رویکرد به سمت منابع جدید انرژی سازگار با محیط زیست آشکار میشود. بررسیها نشان میدهد که انرژی زیست توده میتواند یکی از گزینههای مناسب برای جایگزینی با سوختهای فسیلی باشد. چراکه افزون بر آثار مخرب کمتر بر محیط زیست، میتوان آن را منبع پایانناپذیر انرژی محسوب کرد. هدف از این پژوهش، ارزیابی نیروی زیست توده و انرژی قابل استحصال آن در استان خراسان رضوی به عنوان یکی از قطبهای مهم کشاورزی، دام و طیور ایران است. بدین منظور در بخش زراعی با استفاده از فاکتور ضریب پسماند، میانگین تولید سالانه پسماند برای شش محصول اصلی استان ارزیابی شد و با استفاده از ضریب ارزش انرژی این پسماندها، میانگین نیروی انرژی آنها تخمین زده شد. در بخش دام و طیور، نیز میزان پسماند، از طریق تعداد دام و ضریب تبدیل کود، با توجه به میانگین وزن زنده آنها ارزیابی شد و از طریق عملکرد بیوگاز آنها و ارزش حرارتی آن، میزان انرژی قابل استحصال برآورد شد. نتایج ارزیابیها نشان داد استان خراسان رضوی با میانگین تولید سالانه حدود 7/3 مگاتن زیست توده در بخش زراعی امکان تولید PJ3/42 انرژی دارد. همچنین با استحصال پسماند بخش دام و طیور به ویژه گاوهای شیری میتوان تقریباً معادلPJ5 انرژی تأمین کرد. بنابراین استان خراسان رضوی در زمینه تولید زیست توده بخشهای کشاورزی، دام و طیور دارای پتانسیل چشمگیری است. | ||
کلیدواژهها | ||
انرژی تجدیدپذیر؛ زیست توده؛ پسماند؛ محصولات زراعی؛ فضولات دامی | ||
عنوان مقاله [English] | ||
Assessment of Biomass Resources Potential in Khorasan Razavi Province for Bioenergy Production | ||
نویسندگان [English] | ||
Afsaneh Aminian1؛ Mohammad Hosein Abbaspour Fard2؛ Mohammad Hosein Aghkhani؛ Mohammad Hosein Edalat3 | ||
1M.Sc., Student, Agriculture Mechanization, Ferdowsi University of Mashhad | ||
2Assoc. Prof., Department of Farm Machinery Engineering, Ferdowsi University of Mashhad -Iran | ||
3M.Sc., Mechanics of Agricultural Machinery, Ferdowsi University of Mashhad -Iran | ||
چکیده [English] | ||
Introduction Energy and environmental issues are two common concerns of modern societies. Fossil fuels consumption is believed to be the primary factor contributing to severe environmental problems, such as global warming, climate change and acid rain, which are a serious threat to the world’s ecosystems. In order to stabilize the earth’s climate and prevent further global warming, the earth requires a 70% cut in present carbon dioxide emissions by 2050. In the executive summary of IEA (2006), it claims “Beyond 2020, the role of renewable energy in global energy supply is likely to become much more important”. Among these, biomass can be defined as all the biological materials produced and existing within an ecological system and as sources of renewable energy can be converted directly into energy or energy carrier materials. Regarding to biomass assessment, researchers estimated the sustainable energy potential of biomass resources in Thailand including: (i) agricultural residues, (ii) animal manure, (iii) fuel-wood saving potential through improvement of efficiency, (iv) possibility of fuel-wood saving through substitution by other fuels, (v) municipal solid wastes, and (vi) wastewater. The potential of each source was estimated for the reference year 1997 and for the years 2005 and 2010. The total energy potential of these sources in 1997, 2005 and 2010 were 525, 702 and 821 PJ, respectively. In Iran, Khorasan Razavi province is known as an important region of biomass production in the country including: crops, livestock and poultry. Hence, in this study the potential of biomass and its distribution were evaluated. Materials and methods In the present study, the collectable residue has been estimated that is known as None Gross Yield (NGY), using two factors, which are Harvest Index (HI) and Gross Yield (GY). Harvest index factor (%), defined as follow: HI= (Biological yield / Product yield) × 100 (1) Biological yield is defined as all parts of the crop including grain and straw. Harvest index is not constant as it is dependant of several factors mainly climate and crop type and cultivation. Therefore, the average harvest index of each crop has been used that were obtained by Agriculture and Natural Resources Research Center of Khorasan Razavi and the other research centers through the country and other parts of the world. The data is presented in Table 1. Table 1: Average harvest index of important crops in Khorasan Razavi Province Crops Wheat Barely Sugar beet Cotton Melon Tomato Irrigated Dry land Irrigated Dry land Irrigated Irrigated Irrigated Dry land Irrigated HI (%) 42 35 40 33 55 30 66 58 52 Using Equation 2, the None Gross Yield (NGY) of any product can be estimated: (2) /HI GY. (1-HI) NGY= Since the roots and a fraction of the stems of plant remain in the soil (except sugar beets, tomatoes and melons), 15 percent of NGY was deducted. Thus, the recoverable residue that is produced can be calculated as follows: Collectable agricultural residues = NGY- (NGY × 0.15) (3) To assess the Collectable agricultural residues of important crops in Khorasan Razavi province (wheat, barley, sugar beet, cotton, melon and tomato), statistics related to Gross Yield (GY) for six years (2004- 2010) were extracted from the records of Agriculture Organization of the country. Consequently, the average annual productions of these crops were calculated. Using the data of Table 1 and also considering GY per unit of crops and according to Equation 2, Residue-to-Product Ratio (RPR) which also known as Waste Factor for each crop was calculated. Having this, and using Equation 3, the average annual collectable agricultural residue was estimated. At the end, the Average energy value of each of these waste crops was extracted from various research sources. Thus the Average annual energy potential of these wastes was evaluated that are presented in Table 3. In order to assess the collectable manure potential and their energy content for heavy livestock in the province, the relevant data was integrated that are presented in Table 4. Considering the factors including: livestock breeds, types, number, percentage of the manure and based on the average live weight of the animal that has been extracted from the ASAE Standard D384.1 FEB03, the amount of produced fresh manure per cow were calculated, for the reference year 2009. This procedure was followed for the total number of livestock in each city of Khorasan Razavi province. According to ASAE D384.1 FEB03 dairy cows, heifers and beefs produce manure about 6.8%, 2.6% and 8.5% of their live weight per day, respectively. The average weight of each animal in the study area was then calculated. The average weight of livestock (cattle) was extracted according to the breed and animal type that are present in Table 2. Table 2: The average weight of livestock Cattle breed Genuine Hybrid Native Dairy Heifer Beef Dairy Heifer Beef Dairy Heifer Beef Average weight (kg) 575 350 750 350 250 475 275 190 425 In Khorasan Razavi province, there were 5791211 and 1080224 sheep and goats respectively, in 2009. In order to evaluate the potential of lightweight animal manure, the average weight of sheep and goat were considered as 55 and 40 kg, respectively. According to ASAE D384.1 FEB03 Standard, these animals produce 4.0% and 4.1% of their live weight manure per day, on average. Thus, using the average weight of animal and the ASAE D384.1 FEB03 Standard, the potential of livestock manure that can be collected for three months of the year has been calculated which is presented in Table 4. Broilers’ farming is performed periodically (averagely four periods per year) and after each period the average weight of broilers reaches 2.5 kg. During the period each broiler consumes approximately 5.56 kg of feed from which in average 25% is converted to manure (1.4 kg). In Khorasan Razavi province, the capacity of the poultry farms is about 17064420 units. Thus, to calculate the number of broilers per year, the capacity of the poultry farms multiplied by the number of periods per year (four periods) and from the total, 5% is deducted as average losses of the farms. Then the resulting number is multiplied by 1.4 kg. Finally, the potential of the manure from this sector, for the base year 2009, was evaluated in Khorasan Razavi province which is shown in Table 4. The capacity of farms in the province, for layers was about 7774747 units in 2009. Normally, in a growing period, only two-third of the capacity is used for poultry and also 3% of the capacity is considered as losses. Therefore, according to what is mentioned above, first the number of poultry was calculated. Thereafter, using the average weight of poultry at the end of period (1700 g) and the conversion factor for manure from ASAE D384.1 FEB03 Standard equal to 6.4%, the total potential of this manure was evaluated (Table 4). Results and conclusions The results of this study showed that,with consideration of the sum of biomass crops, livestock and poultry in the province of Khorasan Razavi, according to Tables 3 and 4, the province's energy potential is estimated to be 47.3 PJ (equivalent to approximately 8 million barrels of oil).Also, among the cities of KhorasanRazavi province, Neyshaboor, Mashhad, Torbate jam and Sabzevar were determined as the main areas of biomass production and diversification. But in term of biomass density (ton per km2) production, Jovein, Joghatay and Neyshaboor will be ranked in top positions, respectively. Table 3: The annual average energy potential of agricultural crop residues in Khorasan Rrazavi province Annual production (103 ton) Crops 2004-2005 2005-2006 2006-2007 2007-2008 2008-2009 2009-2010 Annual average of crops production (103 ton) Waste factor Annual average of residues production (103 ton) Energy value of residues (GJ/ton dry matter) Annual average energy of residues (PJ) Dry matter % Irrigated wheat 960.90 772.64 885.78 478.60 901.70 918.30 819.65 1.4 975.38 16.86 14.96 90-92 Dry land wheat 161.30 64.28 114.06 29.91 225.97 151.55 124.51 1.86 200.85 16.86 3.1 90-92 Irrigated barley 428.2 398.31 394.7 190.65 526.70 489.74 404.72 1.5 516.02 16.56 7.77 90-92 Dry land barley 31.75 10.01 19.18 6.18 48.23 28.11 23.91 2 40.65 16.56 0.61 90-92 Sugar beet 1461.81 1699 1753.26 695.3 667.39 935.78 1202.1 0.82 985.72 14.47 2.14 13-17 Cotton 124.92 117.64 114.87 108.21 100.50 71.63 106.3 2.33 210.53 16.43 3.04 85-88 Irrigated melon 627.1 607.33 648.4 535.05 532.6 523.4 579 0.5 289.5 14.32 3.9 92-96 Dry land melon 0.59 0 0 0 0.906 0.58 0.35 0.72 0.252 14.32 0.0034 92-96 Tomato 401.64 398.8 617.13 583.82 530.56 584.82 519.64 0.92 477.9 14.95 6.78 94-96 Total 4198.21 4068.01 4547.38 2627.72 3525.56 3703.91 3780 3696.8 42.3 Table 4: Assessment of energy potential of collectable livestock and poultry manure in Khorasan Razavi province in 2009 Animal type Average weight of animal (Kg) Wet manure production Kg/head/day Average of total solids Kg/head/day Average of volatile solids Kg/head/day Potential of manure production (103 ton) Biogas yield (m3/Kg VS) Amount of biogas Mm3/year Energy (PJ) Cattle Dairy 418 36 5 4.20 2646.38 0.36 111 2.22 Heifer 270 16.74 1.40 0.62 547.68 0.27 5.47 0.11 Beef 560 32.50 4.76 4.03 717.15 0.31 27.60 0.55 Sheep 55 2.20 0.600 0.500 1146.66 0.25 65.93 1.32 Goat 40 1.64 0.500 0.400 159.44 0.25 9.72 0.19 Poultry Broiler 2.5 0.07 0.020 0.017 90.783 0.47 10.37 0.2073 Layer 1.7 0.1088 0.0272 0.0204 194.19 0.49 17.84 0.35 Total 247.93 4.947 | ||
کلیدواژهها [English] | ||
renewable energy, waste, Biomass, crop residue, livestock wastes | ||
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