农业工程学报
農業工程學報
농업공정학보
2015年
2期
228-234
,共7页
方放%李想%石祖梁%王飞%常志州%张姗%孙仁华%宝哲%邱凌
方放%李想%石祖樑%王飛%常誌州%張姍%孫仁華%寶哲%邱凌
방방%리상%석조량%왕비%상지주%장산%손인화%보철%구릉
农作物%秸秆%肥料%利用现状%利用潜势%黄淮海地区
農作物%秸稈%肥料%利用現狀%利用潛勢%黃淮海地區
농작물%갈간%비료%이용현상%이용잠세%황회해지구
crops%straw%fertilizers%utilization situation%utilization potential%Huang-Huai-Hai Plain
为推动区域农作物秸秆全量化利用,以黄淮海地区5省市为研究对象,对各类农作物秸秆进行了统计分析,计算了5省市农作物秸秆资源量、秸秆资源密度、人均秸秆资源占有量,明确了秸秆资源分布及利用现状,初步分析了秸秆全量化利用的潜势。结果表明:黄淮海5省市农作物秸秆资源理论数量达到2.4×108 t,可收集量达到2.1×108 t。秸秆综合利用率达76%,其中肥料化、饲料化、基料化、能源化、原料化利用分别占已利用量的49.0%、31.6%、4.4%、8.8%、6.2%。秸秆资源密度和人均秸秆资源占有量均高于全国平均水平。通过分析黄淮海各省(市)秸秆潜在利用途径,预测竞争性秸秆利用需求量为1.5×108 t,分别为肥料化6.7×107 t、饲料化5.7×107 t、基料化1.1×107 t、原料化1.8×107 t,秸秆资源可能源化利用量则为8.80×107 t。在已有利用结构基础上,黄淮海地区秸秆实现全量化利用的总体趋势表现为“两个增加”、“一个减少”、“两个调节”,即基料化和原料化利用分别增加2.5×106和6.3×106 t,饲料化利用减少4.8×105 t,肥料化利用调节范围为?2.2×107~7.2×107 t,能源化利用调节范围为0~7.2×107 t。并提出“区域统筹,整体推进”,建立长效运行机制的工作思路。
為推動區域農作物秸稈全量化利用,以黃淮海地區5省市為研究對象,對各類農作物秸稈進行瞭統計分析,計算瞭5省市農作物秸稈資源量、秸稈資源密度、人均秸稈資源佔有量,明確瞭秸稈資源分佈及利用現狀,初步分析瞭秸稈全量化利用的潛勢。結果錶明:黃淮海5省市農作物秸稈資源理論數量達到2.4×108 t,可收集量達到2.1×108 t。秸稈綜閤利用率達76%,其中肥料化、飼料化、基料化、能源化、原料化利用分彆佔已利用量的49.0%、31.6%、4.4%、8.8%、6.2%。秸稈資源密度和人均秸稈資源佔有量均高于全國平均水平。通過分析黃淮海各省(市)秸稈潛在利用途徑,預測競爭性秸稈利用需求量為1.5×108 t,分彆為肥料化6.7×107 t、飼料化5.7×107 t、基料化1.1×107 t、原料化1.8×107 t,秸稈資源可能源化利用量則為8.80×107 t。在已有利用結構基礎上,黃淮海地區秸稈實現全量化利用的總體趨勢錶現為“兩箇增加”、“一箇減少”、“兩箇調節”,即基料化和原料化利用分彆增加2.5×106和6.3×106 t,飼料化利用減少4.8×105 t,肥料化利用調節範圍為?2.2×107~7.2×107 t,能源化利用調節範圍為0~7.2×107 t。併提齣“區域統籌,整體推進”,建立長效運行機製的工作思路。
위추동구역농작물갈간전양화이용,이황회해지구5성시위연구대상,대각류농작물갈간진행료통계분석,계산료5성시농작물갈간자원량、갈간자원밀도、인균갈간자원점유량,명학료갈간자원분포급이용현상,초보분석료갈간전양화이용적잠세。결과표명:황회해5성시농작물갈간자원이론수량체도2.4×108 t,가수집량체도2.1×108 t。갈간종합이용솔체76%,기중비료화、사료화、기료화、능원화、원료화이용분별점이이용량적49.0%、31.6%、4.4%、8.8%、6.2%。갈간자원밀도화인균갈간자원점유량균고우전국평균수평。통과분석황회해각성(시)갈간잠재이용도경,예측경쟁성갈간이용수구량위1.5×108 t,분별위비료화6.7×107 t、사료화5.7×107 t、기료화1.1×107 t、원료화1.8×107 t,갈간자원가능원화이용량칙위8.80×107 t。재이유이용결구기출상,황회해지구갈간실현전양화이용적총체추세표현위“량개증가”、“일개감소”、“량개조절”,즉기료화화원료화이용분별증가2.5×106화6.3×106 t,사료화이용감소4.8×105 t,비료화이용조절범위위?2.2×107~7.2×107 t,능원화이용조절범위위0~7.2×107 t。병제출“구역통주,정체추진”,건립장효운행궤제적공작사로。
With the continuous increase of crop yields, the amount of straw, as a by-product, also increased progressively. At the same time, since agricultural production style and farmers' lifestyle have changed a lot, the distribution of straw appeared regional, seasonal and structural surplus. More and more straw was thrown away and open burning at will, causing not only a huge waste of resource, but also a series of problems, like atmospheric pollution and traffic interruption and so on. To solve the problems caused by relative straw surplus fundamentally, and to prevent the series of damage brought by open burning, the key point was to realize the full utilization of the total straw. It was of great significance to fully recognize and correctly evaluate the developing potential of straw resource for making better use of total straw and optimizing utilization structure. This study made the research target with five provinces in Huang-Huai-Hai Plain; combined with literature survey and organizing some discussions, the yield, distribution density, amount per capita and utilization status of crop straw resource in Huang-Huai-Hai Plain of China were estimated, and the potential utilization of total straw was discussed. The results showed that crop straw resource in Huang-Huai-Hai Plain was very abundant, the theoretical amount of crop straw in five provinces was 2.4 ×108 t in 2012, and it was 8.9 ×107, 9.4 ×107, 7.4 ×106, 3.1 ×107, 7.7 ×106, 1.9 ×106, 2.3 ×106 and 6.5 ×106 t for maize, wheat, rice, peanut, cotton, legume, potatoes and other crops, respectively. The collectable straw amount was 2.1 ×108t. The mean comprehensive utilization efficiency of crop straw reached 76% in this area of five provinces, and straw utilization efficiency of Hebei Province was higher than the other four. Crop straw was mainly used as fertilizer, fodder, stroma, fuel and feed stock, accounting for 49.0%, 31.6%, 4.4%, 8.8% and 6.2%, respectively, in terms of usage amount, but there existed obvious difference in straw use structure among five provinces. The density of straw resource and straw resource per capita in Huang-Huai-Hai Plain were higher than national average value, but the result from Tianjin was opposite. By analyzing potential use ways, it could be forecasted the competitive demand amount for straw resource was 1.5×108 t, of which straw utilization amounts for fertilizer, fodder, stroma and feed stock were 6.7×107, 5.7×107, 1.1×107 and 1.8×107 t, respectively. Potential straw amount for energy utilization was 8.8×107 t. Based on the results as above, the general trend for total straw utilization in Huang-Huai-Hai Plain could be summarized as ‘ two increase’, ‘ one decrease’ and ‘ two regulation’. On the basis of original use structure, straw utilization amount for stroma and feed stock would increase by 2.5×106 and 6.3×106 t, and reduce by 4.8×105 t for fodder utilization. Adjustment range of straw amount for fertilizer was from -2.2×107 to 7.2×107 t, and for fuel utilization was from 0 to 7.2×107 t. It should take ‘regional planning as a whole’, which means that taking county or village and town as a research unit, and setting up a mechanism for long-term operation are suggested to promote total straw utilization in Huang-Huai-Hai Plain.