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1.
Municipal solid waste (MSW) is one of the most well-known biomass resources that can be utilized to produce renewable energy. Numerous countries are plagued by the proliferation of waste, particularly organic waste that can be utilized for energy recovery. Palestine suffers from inefficient solid waste management, and only recently have a few projects focused on bioenergy production been implemented. Throughout the years, the city of Tulkarm experiences power outages which cause a challenge to the Palestine Technical University-Kadoorie campus in Tulkarm. Thus, the possibility of energy recovery from the organic portion in Palestine Technical University-Kadoorie was evaluated. The analysis of an economic impact included discussions of a number of economic aspects, including Levelized cost of energy, internal rate of return, present worth, annual worth, and payback period. On the other hand, a carbon dioxide savings analysis and gas emission were evaluated. The outcomes of the energy optimization demonstrated that the suggested system could supply the institution with an average of roughly 7 MWh of electrical energy. According to the economic study, this project offers 0.25 million dollars in present value, 0.144 million dollars in annual value, a 13 percent internal rate of return, a payback period of 6 years, and a levelized cost of energy of 0.11 dollars for each kWh generated. Additionally, the environmental assessment revealed that this system might reduce CO2 emissions by around 8,343,778 tons. For effective waste management, energy recovery, and emission reduction, it is advised to implement anaerobic digestion technology. 相似文献
2.
Puteri Nur Syazwani Mohd Kopli Mimi H. Hassim Umi Aisah Asli Firdaus Abdul Wahab 《环境质量管理》2023,33(1):95-106
Biohythane production via single-stage anaerobic digestion (AD) is an effective way for sustainable energy recovery from lignocellulosic biomass. In this paper, biohythane was produced through the AD process from pineapple peel waste substrate using purely cultured Methanosarcina mazei with the enhancement of palm oil mill effluent (POME) sludge as the inoculum. This study focuses on the effects of the lignocellulosic pre-treatment method, the addition of POME sludge into M. mazei culture medium as inoculum, and various operational conditions (food to microorganisms (F/M) ratios, temperature, pH) on gas production performances. The experimental results indicate that these parameters influenced the efficiency of biohythane production by producing the peak maximum biohythane production rate values (HPRmax) and (MPRmax), H2:CH4 = 1.93:0.67 L/L-d, and biohythane yield (HY) and (MY), H2:CH4 = 1.18:0.55 mL/L-substrate. This study demonstrates that biohythane gas (H2 + CH4 + CO2) production from pineapple waste can be accelerated by M. mazei only with the enhancement of POME sludge through single-stage AD system under mesophilic batch process conditions. 相似文献
3.
采用特异性移动床生物膜反应器(SMBBR)和厌氧生物滤池(AF)组合工艺处理高氨氮农药废水。考察了HRT、pH和DO等工艺条件对SMBBR-AF-SMBBR组合工艺运行稳定期COD和氨氮去除率的影响。试验结果表明,在进水COD为2 408~7 440 mg/L、ρ(NH_4~+-N)为160.21~433.84 mg/L、TN为208.27~537.65 mg/L、HRT为8d、pH为8.0、DO为4 mg/L的条件下,处理后出水平均COD为342 mg/L,COD去除率达92.3%;ρ(NH_4~+-N)小于4.0mg/L,氨氮平均去除率为89.2%;TN小于50 mg/L,平均TN去除达83.0%。出水各指标均优于原A2O工艺出水。 相似文献
4.
Dominic Bekoe Bo Zhang Matthew Scott Todd Abolghasem Shahbazi 《Journal of environmental science and health. Part. B》2018,53(2):145-151
Aerobic treatment of swine manure was coupled with anaerobic digestion and microalgal cultivation. A 14-day aerobic treatment reduced the total solid content of swine manure by >15%. Ammonia and carbon dioxide were stripped by the air supplied, and this off-gas was further used to aerate the culture of Chlorella vulgaris. The microalgal growth rates in Bristol medium and the wastewater with the off-gas increased from 0.08 to 0.22 g/L/d and from 0.15 to 0.24 g/L/d, respectively. Meanwhile, the aerobically treated swine manure showed a higher methane yield during anaerobic digestion. The experimental results were used to establish a demonstration unit consisting of a 100 L composter, a 200 L anaerobic digester, a 60 L tubular photobioreactor, and a 300 L micro-open raceway pond. 相似文献
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6.
通过厌氧发酵动力学分析、还原糖及其他代谢产物变化情况,结合香蒲微观结构解析,系统研究酸(HCl)、碱(NaOH)、酶(纤维素酶R-10)3种预处理对水生植物厌氧发酵联产H2-CH4的影响. 结果表明:香蒲分别经酸、碱、酶3种预处理后,厌氧发酵联产累积H2、CH4产量及含量均显著提高,c(HCl)、c(NaOH)均为1.0molL, w(纤维素酶R-10)(以底物计)为10mgg时,预处理最佳. 其中1.0molL NaOH预处理香蒲效果最佳,φ(H2)(H2含量)达30.09%,累积产H2量(以香蒲干质量计)达11.39mLg;φ(CH4)(CH4含量)最高达67.48%,累积产CH4量(以香蒲干质量计)达41.87mLg;还原糖利用率达50.87%,sCOD(溶解性化学需氧量)利用率达66.17%. 纤维素酶预处理后香蒲产CH4能力显著提高,产CH4阶段φ(CH4)最高为71.39%,累积产CH4量达46.32mLg,还原糖利用率达72.10%. 扫描电镜微观结构分析表明,碱预处理对香蒲纤维素结构破坏程度最大,可有效增加香蒲与微生物接触面积,有利于厌氧发酵联产H2-CH4工艺的快速启动和稳定运行. 相似文献
7.
通过叶菜类蔬菜垃圾中温批式厌氧消化实验,比较了含固率(3%、5%、7%)和接种比(1.5、2.5、3.5)对产甲烷效果的联合影响.结果表明,在研究实验参数范围内,含固率越低、接种比越高,越有利于缩短产甲烷反应迟滞期,平均日产甲烷速率越快.经过52d的培养,在含固率为3%、接种比为3.5的工况中,平均日产甲烷速率最快,达到9.5mL/(gVS?d),日最大产甲烷速率最快,达到49.8mL/(gVS?d),最早进入快速产甲烷期.当接种比为3.5时,随着含固率的升高,产甲烷速率下降,迟滞期延长,但单位底物累计产甲烷量增大,含固率7%时单位底物累计净产甲烷量为481mL/gVS.而当接种比为1.5时,含固率为5%和7%的工况均无法启动甲烷化反应,含固率为3%的工况的产气迟滞期达15d.挥发性有机酸的累积抑制甲烷化反应的启动,迟滞期随着液相中有机酸浓度的增加而延长,当有机酸浓度低于1260mg/L,甲烷化反应没有明显的迟滞期. 相似文献
8.
厌氧水解酸化处理含高浓度聚丙烯酰胺污水 总被引:2,自引:0,他引:2
运用厌氧瓶和厌氧折流板反应器(ABR)对含部分水解聚丙烯酰胺(HPAM)的污水进行厌氧水解酸化生物处理.选取PAM-F1和PM-2两株厌氧菌为HPAM降解菌,并优化了单株菌和混合菌的降解条件.结果发现,最佳降解条件为降解9 d,连续活化3次,温度35~40℃,初始pH=7.5.此时,混合菌对500 mg·L-1HPAM污水的降解效果最好,降解率可达到40.69%.通过生理生化特征和16S rDNA分析,确定PAM-F1为红球菌(Rhodococcus sp.).混合菌降解前后的HPAM傅里叶-红外光谱图分析表明,细菌能够降解并利用HPAM的部分胺基和碳作为生长所需的氮源和碳源,并推断出HPAM的降解过程发生在厌氧水解酸化阶段.扫描电镜(SEM)图片显示,ABR中形成了能有效促进HPAM生物降解的颗粒污泥.而经过ABR处理的HPAM污水,CODCr去除率和HPAM降解率可分别达到89.96%和75.48%.研究表明,厌氧水解酸化法是一项能够有效处理含高浓度HPAM污水的技术. 相似文献
9.
建立了3组模拟厌氧生物反应器填埋场——R1、R2和R3,其中R1反应器无中间覆盖层,R2和R3反应器分别以矿化垃圾+重质碳酸钙、矿化垃圾+天然沸石为中间覆盖层,以研究不同中间覆盖层对厌氧生物反应器填埋场中有机物降解的作用.结果表明:以矿化垃圾+重质碳酸钙、矿化垃圾+天然沸石为中间覆盖层时,均能维持反应器中良好的内环境,可促进垃圾和渗滤液中有机物的降解.R1、R2和R3反应器中垃圾的w(VS)(VS为挥发性固体))分别比初始值下降了69.81%、75.06%、73.86%,w(BDM)(BDM为生物可降解组分)分别下降了66.87%、82.86%、75.38%,w(纤维素)分别下降了67.96%、75.41%、72.90%;R1、R2和R3反应器中垃圾渗滤液的ρ(CODCr)比最大值分别降低了25.45%、29.72%、23.01%,ρ(BOD5)分别降低了39.28%、45.66%、46.74%.表明矿化垃圾+重质碳酸钙为中间覆盖层时,既能接种可降解有机物的微生物,又能提供微生物生长所需的碱度,因此更具优势. 相似文献
10.