Integrated benefits of power generation by straw biomass--A case study on the Sheyang Straw Power Plants in Jiangsu Province,China

Power generation using straw biomass has quantifiable benefits from an economic,ecological,and sociological perspective in China.The methods used to construct the assessment models of these integrated benefits were the revenue capitalization approach and the discounted-cash-flow approach.The results indicated that a straw power plant with the capacity of 2.50×10^(7)W and burning 1.23×10^(5)tons of cotton straw could annually supply 1.40
×10^(8)kWh of power.However,it would not be until six years later that these results could be measured.Over the long term,the gross benefits could reach up to 4.63×10^(8)Yuan.Therefore,the total benefits are expected to be 1.18×10^(12)Yuan if all available straw resources are used to generate power.The policy implication showed that the long-term integrated benefits of power generation by straw biomass outweighed the short-term benefits.This is the main incentive to use straw biomass for power generation in the future.

Microbial Biomass Carbon Trends in Black and Red Soils Under Single Straw Application: Effect of Straw Placement, Mineral N Addition and Tillage

Quantifying trends in soil microbial biomass carbon (SMBC) under contrasting management conditions is important in understanding the dynamics of soil organic matter (SOM) in soils and in ensuring their sustainable use. Against such a background, a 60-day greenhouse simulation experiment was carried out to study the effects of straw placement, mineral N source, and tillage on SMBC dynamics in two contrasting soils, red soil (Ferrasol) and black soil (Acrisol). The treatments included straw addition + buried (T1); straw addition + mineral N (T2); and straw addition + tillage (T3). Straw was either buried in the soil or placed on the surface. Sampling was done every 15 days. Straw placement, addition of external mineral N sources (Urea, 46 % N) and soil type affected SMBC. SMBC levels decreased with exposure durations (15 days, 30 days, 45 days, and 60 days). Rate of SMBC fixation was more in buried straw than in surface placed straw at all sampling dates in both soils. Addition of an external N source significantly increased SMBC level. Soil pH increased in both soil types, with a greater increase in black soil than in red soil. The study could not, however, statistically account for the effect of tillage on SMBC levels because of the limited effect of our tillage method due to the artificial barrier to mechanical interference supplied by the mesh bags, although differences in absolute values were quite evident between treatments Tl and T3.

Effect of Incorporation of Wheat Straw and Urea into Soil on Biomass Nitrogen and Nitrogen-Supplying Characteristics of Paddy Soil

Pot experiments were carried out to study the effect of incorporation of wheat straw and/ or urea into soil on biomass nitrogen and mineral nitrogen and its relation to the growth and yield of rice.The combined appliation of wheat straw and urea increased much more biomass nitrogen in soil than the application of wheat straw or urea alone and consequently increased the immobilization of urea nitrogen added and reduced the loss of urea nitrogen.An adequate nitrogen-supplying process to rice plant could be obtained if C/ N ratio of the material added was about 20.The three yield components of rice were affected significantly by the status of nitrogen supplying.More than 30mg N/ kg soil of mineral nitrogen at effective tillering stage,panicle initiation stage and filling stage should be maintained in order to get high rice yield,though the criteria varied with the different experimental conditions.

Effect of goethite on anaerobic co-digestion process of corn straw and algae biomass

1 Introduction Recently the demand for fossil fuel has grown significantly with the rapid development of the Chinese economy.Renewable energy was developed to replace traditional fossil fuels,which would decrease the

秸秆废物高值转化5-羟甲基糠醛的研究动态分析

废弃秸秆产量大,以秸秆类生物质废物制备5-羟甲基糠醛(5-hydroxymethylfurfural, HMF),是绿色安全资源化处理处置的途径之一,可有效缓解固废处置、可再生能源发展和环境的压力,为国家战略储备提供新思路。为了解秸秆废物高值转化HMF的研究热点与发展趋势,借助文献计量方式进行归纳总结,利用VOSviewer和CiteSpace软件对关键词进行可视化分析。结果显示:近20 a,国内外研究热点主要聚焦于秸秆废物的预处理、生物质高值转化HMF的核心技术以及制备HMF的潜力提升策略等方面。然而,该领域发展过程中仍存在HMF产率低、预处理成本大、分离提纯困难和产业化困难等问题,还有待进一步的开发和探索。根据对研究主题发展脉络和突现词分析,推测制备液体燃料、精细化学品等可能是秸秆废物高值转化HMF的发展方向,可为秸秆废物高效高值利用提供科学支撑。

不同品种辣椒秸秆生物量及饲料营养价值研究

【目的】研究辣椒秸秆的生物量和饲料营养价值,为辣椒秸秆合理饲用提供基础数据。【方法】以改良陕早红、灯笼椒和羊角椒3个品种辣椒秸秆为研究对象,对其生物量、结构组成(叶、茎、残留辣椒所占比例)和营养成分(粗蛋白(CP)、中性洗涤纤维(NDF)、酸性洗涤纤维(ADF)、可溶性碳水化合物(WSC)、粗脂肪(EE))进行比较分析,并采用康奈尔净碳水化合物-蛋白质体系(CNCPS)和体外产气试验对比分析辣椒秸秆与玉米秸秆的饲用营养价值。【结果】辣椒秸秆由叶、茎和残留辣椒构成,鲜辣椒秸秆产量最高达39437.55 kg/hm^(2);在鲜、干辣椒秸秆结构构成中,茎质量比例最高,平均为50.17%和56.28%,其次是叶(37.51%,30.69%)和残留辣椒(12.32%,13.03%)。辣椒秸秆叶片的CP含量最高,平均为20.11%,其次是残留辣椒(18.67%)和茎(12.11%),全株辣椒秸秆中的CP含量平均值为15.42%,且品种间存在显著差异(P<0.05);3个品种辣椒秸秆中,茎的NDF和ADF含量最高,平均值分别为45.74%和39.52%,残留辣椒的WSC和EE含量最高,平均值分别为11.91%和5.68%;辣椒秸秆叶、茎、残留辣椒和全株均含有辣椒素,3个品种间含量差异显著(P<0.05)。辣椒秸秆的快速降解碳水化合物(CA)、中速降解碳水化合物(CB1)、非结构性碳水化合物(CNSC)、不可利用纤维(CC)以及粗蛋白中非蛋白氮(PA)、快速降解真蛋白质(PB1)含量均显著高于玉米秸秆(P<0.05),而碳水化合物(CHO)、缓慢降解碳水化合物(CB2)、慢速降解真蛋白质(PB3)和不可利用蛋白质(PC)含量显著低于玉米秸秆(P<0.05)。辣椒秸秆理论最大产气量(a)、产气速率常数(c)、DM降解率均高于玉米秸秆,发酵液NH 3-N质量浓度低于玉米秸秆,表明辣椒秸秆有较高的饲料营养价值。【结论】辣椒秸秆可全部或部分替换玉米秸秆作为反刍动物的粗饲料。

免耕对玉米生产力的影响:基于全球荟萃分析

通过对196篇相关文献的1 043对数据进行全球荟萃分析,评估免耕条件下玉米籽粒产量、秸秆生物量和叶面积指数的变化,并探讨气候、土壤、管理因素对其影响程度和方向。结果表明,相较于传统翻耕,免耕总体上显著降低了玉米籽粒产量、秸秆产量和叶面积指数5.7%、4.1%和9.7%。然而,这种效应因气候、土壤和管理措施而不同。在相对干旱的气候环境(年平均气温为>15℃、年平均降雨<600 mm)和恶劣的土壤条件(土壤体积质量>1.4 g/cm3、土壤有机碳含量<5.8 g/kg、土壤全氮为<0.75 g/kg)下,免耕条件下玉米生产力(籽粒产量和秸秆生物量)水平相对更好。其中,土壤有机碳含量和土壤速效钾含量与玉米籽粒产量呈显著负相关,年平均降雨和土壤速效磷含量与玉米籽粒产量和秸秆生物量呈显著负相关,土壤体积质量与玉米籽粒产量和秸秆生物量呈显著正相关。此外,肥料的高效施用、多样化的种植模式(间作或轮作)、秸秆还田等管理措施能抵消免耕条件下玉米生产力的负效应。总体而言,气候土壤环境相对更恶劣的区域可以从免耕技术上获益更多,而合理的田间管理措施也可以为免耕技术提供更好的生产力效应。

秸秆收储运模式对运输成本的影响

以乌鲁木齐市为例,选取了10个储运点,分析不同秸秆收储运模式的特点,寻找经济可行的收储运模式,提升秸秆生物质的利用率。结果表明:秸秆运输成本占秸秆生物质燃料成本的比例较大;模式一适用于秸秆储存量不大、运输距离较近的收储运点;模式二对距离较远、储量小的收储运点较为适合;模式三适用于储量大的收储运点,收集快,运输距离短。3种模式各有利弊,应针对不同的地点选用最合适的方法。储量小,选择模式一;储量大,选择模式三;距离远,选择模式二。

秸秆生物质资源生态循环利用的现状分析

秸秆资源的科学合理化利用可以产出生物质能源、有机肥料、生物质材料等多种产品,为农村地区增加经济收入,改善农民生活。同时,秸秆生物质资源的循环利用有助于保护生态环境,也符合可持续发展,提高农业生产资源利用效率和生态系统的稳定性。深入研究秸秆生物质资源的生态循环利用现状,分析存在的问题和挑战,探索合理的利用模式和途径,对于推动资源循环利用与环境保护的协调发展,实现农村经济的绿色可持续发展具有重要的理论和实践意义。本文旨在系统分析秸秆生物质资源生态循环利用的现状,以期为实现资源循环利用、减少环境污染、促进农村可持续发展提供参考和建议。

中国秸秆资源管理政策综述与建议

近年来,针对秸秆露天焚烧问题,中国采取了各种政策和措施来控制污染并合理利用秸秆资源。文章收集整理了1999—2023年间国家和各省(直辖市、自治区)发布的秸秆资源管理政策文件,分为秸秆焚烧管理、秸秆综合利用、秸秆能源产业规划以及财政补贴等方面进行系统梳理和分析。在国家政策和地方政策的协调配合下,秸秆焚烧监管逐步实现了从人力防控到技术防控的转变。然而,仅仅依靠禁烧不能从根本上解决秸秆焚烧问题,探索合理的秸秆利用方式成为秸秆资源管理的重要思路。国家通过制定发展规划和实施方案,确定了秸秆资源利用的总体方向和思路;各地结合自身的秸秆资源禀赋和发展潜力,也制定了具体的发展规划和实施方案。总体上,在各级政策的引导下,全国秸秆露天焚烧现象得到了显著改善,秸秆资源的合理利用程度也有了显著提高。但同时还存在一些问题,比如,东北地区秸秆焚烧现象依旧严峻,秸秆综合利用扶持标准偏低,部分地区秸秆发电产业规划布局不合理,可再生能源电价补贴不到位,关键技术研发滞后等。因此,国家还需要完善秸秆焚烧管理机制,加强东北地区的秸秆综合利用,实施秸秆过腹还田,合理布局生物质发电项目,设立生物质发电专项补贴目录,以及加大相关科技研发投入。

秸秆覆盖对黑土区土壤微生物量、酶活性及大豆产量的影响

为了探究秸秆覆盖量对黑土区土壤微生物量、酶活性及大豆产量的影响,以垦丰16为试验材料,分别设置无秸秆覆盖(CK)、0.5 kg/m2秸秆还田覆盖(T1)、1.0 kg/m^(2)秸秆还田覆盖(T2)、1.5 kg/m^(2)秸秆还田覆盖(T3)4种处理,测定大豆生育期内耕作层土壤细菌、真菌、放线菌数量以及脲酶、过氧化氢酶活性和大豆产量,对比分析不同秸秆覆盖量对土壤微生物量、酶活性及大豆产量的影响。结果表明,大豆全生育期内土壤细菌数量呈先升高后降低的趋势,其中T2处理细菌总数量最大,分别较T1、T3、CK处理提高33.08%、9.30%、65.38%;真菌数量呈先升高后降低、再升高再降低的趋势,其中T2处理真菌总数量最大;放线菌数量整体上呈先升高后降低的趋势,随着秸秆覆盖量的增加而增加。各处理脲酶活性表现为T1>T2>T3>CK,且秸秆覆盖处理分别较CK处理提高32.64%、29.42%、18.23%;过氧化氢酶活性表现为T2>T3>T1>CK,不同处理酶活性均在开花期达到最高。秸秆覆盖处理大豆产量显著高于CK,秸秆覆盖量对大豆产量的影响并未随着秸秆覆盖量的增加而持续增加,T2处理产量最高。大豆产量与脲酶活性、细菌数量呈极显著正相关关系,与真菌数量呈显著正相关关系;过氧化氢酶活性与脲酶活性、真菌数量呈显著正相关关系。综上,1.0 kg/m2秸秆覆盖是黑土区最优秸秆覆盖量。

供氧浓度对受控生态生保系统典型生物质固废好氧堆肥的影响

目的探讨不同供氧浓度对生物质固废好氧堆肥化处理过程的影响机制,以掌握适用于未来地外星球基地受控生态生保系统(CELSS)固废资源化处理的供氧参数,提高氧气利用率。方法利用自研的固废生物反应器试验系统,以小麦秸秆和模拟粪便为处理对象,开展10%、15%和21%三种供氧浓度的好氧堆肥化处理实验,定期采样并分析处理过程中的气体组分(O_(2)、NH_(3)、CH_(4)和N_(2)O)及物料腐熟度(含水率、溶解性有机碳、NH_(4)^(+)-N和种子发芽指数)。结果15%O_(2)处理组耗氧量最大,NH_(3)和N_(2)O排放量最小,溶解性有机碳含量降解效果最好,NH_(4)^(+)-N含量较高;3个处理组中CH_(4)排放均处于较低水平。堆肥结束时,10%O_(2)和15%O_(2)处理组的产品含水率均大于74%,保水性最好,各处理组的种子发芽指数分别达到86.64%、123.81%和97.98%。结论与10%和21%供氧浓度相比,15%供氧浓度有效减少了NH_(3)和N_(2)O的排放,且拥有良好的保氮、保水和溶解有机碳降解效果,腐熟度更高。

秸秆还田和水旱轮作模式对稻季土壤温室气体排放的影响

【目的】探究不同水旱轮作模式下,冬季作物秸秆还田对后茬水稻季作物产量和温室气体排放的影响,为长江中游稻田选择适宜的秸秆还田方式和农业可持续生产提供科学依据。【方法】田间试验在湖北荆州进行,设置水稻–小麦(稻麦)、水稻–油菜(稻油)和水稻–紫云英(稻肥)3种水旱轮作模式,每个模式下设置冬季作物收获后秸秆还田和不还田处理。在秸秆还田后的水稻季,采用静态暗箱—气相色谱法连续监测稻田中甲烷(CH_(4))和氧化亚氮(N_(2)O)排放量,在水稻分蘖期、抽穗期、成熟期采集0—5、5—10、10—20 cm土层样品,测定微生物量碳(MBC)、可溶性有机碳(DOC)、铵态氮(NH_(4)^(+)-N)和硝态氮(NO_(3)^(-)-N)含量,收获期测定水稻产量。【结果】秸秆还田和不同轮作模式对后茬水稻产量均无显著影响。与稻肥轮作相比,在秸秆还田条件下稻油和稻麦轮作水稻季土壤CH_(4)和N_(2)O排放分别高出44%~58%和17%~30%,在秸秆不还田条件下则分别高出58%~72%和15%~22%。与秸秆不还田相比,秸秆还田条件下3种轮作模式平均CH_(4)和N_(2)O排放分别增加26%~39%和20%~29%。秸秆还田条件下,稻油和稻麦轮作稻季土壤全球增温潜势(GWP)和温室气体排放强度(GHGI)分别比稻肥轮作高出14%~19%和12%~19%,秸秆不还田条件下分别高出18%~23%和15%~24%。与秸秆不还田相比,秸秆还田条件下3种轮作模式稻季土壤平均GWP和GHGI高出31%和32%,同时土壤硝态氮、微生物量碳和可溶性有机碳含量均显著提高。此外,稻麦轮作土壤微生物量碳和可溶性有机碳含量显著高于稻肥、稻油轮作。相关性分析表明,秸秆还田条件下,CH_(4)和N_(2)O排放与NO_(3)^(-)-N呈极显著正相关(P<0.01),而秸秆不还田条件下CH_(4)排放与NO_(3)^(-)-N呈极显著正相关(P<0.01),N_(2)O排放与NH_(4)^(+)-N呈极显著正相关(P<0.01)。【结论】水稻季土壤CH_(4)和N_(2)O的排放与土壤可利用性碳氮浓度的升高密切相关。前茬作物秸秆还田导致水稻季温室气体排放显著增加,与稻麦、稻油轮作相比,水稻–紫云英轮作稻季土壤的温室气体排放量最低,是较为生态环境友好型的种植制度。

Source profiles of particulate organic matters emitted from cereal straw burnings

Cereal straw is one of the most abundant biomass burned in China but its contribution to fine particulates is not adequately understood. In this study, three main kinds of cereal straws were collected from five grain producing areas in China. Fine particulate matters （PMzs） from the cereal straws subjected to control burnings, both under smoldering and flaming status, were sampled by using a custom made dilution chamber and sampling system in the laboratory. Element carbon （EC） and organic carbon （OC） was analyzed. 141 compounds of organic matters were measured by gas chromatography-mass spectrum （GC-MS）. Source profiles of particulate organic matters emitted from cereal straw burnings were obtained. The results indicated that organic matters contribute a large fraction in fine particulate matters. Levoglucosan had the highest contributions with averagely 4.5% in mass of fine particulates and can be considered as the tracer of biomass burnings. Methyloxylated phenols from lignin degradation also had high concentrations in PM2.5, and contained approximately equal amounts of guaiacyl and syringyl compounds. 13-Sitostrol also made up relatively a large fraction of PMz5 compared with the other sterols （0.18%-0.63% of the total fine particle mass）. Normal alkanes, PAHs, fatty acids, as well as normal alkanols had relatively lower concentrations compared with the compounds mentioned above. Carbon preference index （CPI） of normal alkanes and alkanoic acids showed characteristics of biogenic fuel burnings. Burning status significantly influenced the formations of EC and PAHs. The differences between the emission profiles of straw and wood combustions were displayed by the fingerprint compounds, which may be used to identify the contributions between wood and straw burnings in source apportionment researches.

Thoughts on the Present Conditions of Domestic Straw Utilization

According to the diverse studies on domestic straw utilization, the causes to the present situation of domestic straw utilization were analyzed and related solutions were proposed. It was pointed out that only by taking suitable measures can the problems of environment pollution and resources waste caused by straw burning be radically solved.

The Importance of Three Protozoa in Corn Straw Decomposition and Nutrient Transformation

Three typical soil protozoa of Bodo edax, Colpoda cucullus and Amoeba proteus were inoculated into the soil amended with corn straw. The soils were then incubated at 25℃ for 60 days. It was found that the protozoa, particularly Bodo edax, significantly reduced soil microbial biomass C. However, the decomposition of corn straw was accelerated by the protozoa. Colpoda cucullus significantly enhanced soil available P content, but Amoeba proteus decreased soil available P content. Colpoda cucullus and Bodo edax did not obviously influence NH4+-N and NO3--N contents. In contrast, Amoeba proteus significantly increased both NH4+-N and NO3--N contents.

Transformation of Straw ^(14)Cin Ultisol and Vertisol

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兰炭与秸秆混合燃料燃烧污染物排放和灰熔融性试验

兰炭具有热值高、灰分低、硫分低等优点,但挥发分含量低、着火温度高;秸秆热值低、挥发分含量高,着火温度低;二者着火特性具有互补性。为考察兰炭与生物质混合燃料燃烧的硫氧化物、氮氧化物排放和灰熔融性能,利用固定床试验系统研究了3种兰炭、麦秆和玉米秆单独及混合燃料污染物排放特性及掺混比例和燃烧温度对污染物析出的影响,并通过灰熔融测定仪分析灰样熔融性能。结果表明:混合燃料的硫氧化物、氮氧化物析出与掺混条件相关,原料组成和燃烧过程影响污染物析出特性。在燃料中掺混20%~30%玉米秆时,混合燃料固硫效果较好,氮析出率在0.04%左右。提高燃烧温度明显促进硫析出,而低于1 000℃时,府谷兰炭和玉米秆的掺混样具备良好的自固硫特性,氮析出率低于0.02%。另外,混合燃料的灰熔融温度介于两原样间,与混合比例存在一定相关性,兰炭的抗结渣特性明显优于玉米秆,掺混有助于改善秸秆的结渣特性。本研究为兰炭和生物质的清洁利用提供理论参考。

Effects of Biogas Slurry Recirculation on Anaerobic Digestion Performance of Maize Straw Silage

In order to investigate the effects of slurry recirculation technology on anaerobic digestion performance of maize straw silage,maize straw silage was fermented with recirculated biogas slurry,and the gas production,p H value,methane content,volatile organic acids( VFAs)contents,chemical oxygen demand( COD) removal rate and other indicators were studied. The results showed that the fermentation time was positively correlated with daily gas production,methane content,cumulative gas production,VFAs and COD removal rate. Although the p H value fluctuated,it was still in the normal reaction range. The daily gas production was about 1. 26 L. The acetic acid content increased first,then decreased,then increased,and finally stabilized. The biogas slurry recirculation technology saves water resources by 40 m L/d without affecting the normal gas production of anaerobic fermentation,and reduces the consumption of environmental resources. It has important development significance for the sustainable use of biomass resources.