工业工程
工業工程
공업공정
Industrial Engineering Journal
2015年
4期
99-106
,共8页
供应链管理%碳排放政策%碳减排技术投入%协调
供應鏈管理%碳排放政策%碳減排技術投入%協調
공응련관리%탄배방정책%탄감배기술투입%협조
supply chain management%carbon policy%carbon reduction technology investment%coordina-tion
在考虑碳减排技术投入下,为了实现不同碳排放政策下的供应链协调,通过建立集中式和分散式决策下的供应链模型,根据供应链协调的条件,给出了供应链实现协调的契约形式及契约参数。为了确定不同碳排放政策下的最优订货量和最优碳减排率,通过对博弈模型进行优化,提出了具体的求解方法。数值计算结果表明:随着碳排放政策的变化,供应链的最优订货量、最优碳减排率和供应链的利润也将发生相应的变化,而生产成本、缺货损失、产品残值、销售价格、批发价格等参数变化不仅会影响最优订货量、最优碳减排率和供应链利润,还会影响收益共享比例、碳减排技术投入和碳排放成本的分摊比例。
在攷慮碳減排技術投入下,為瞭實現不同碳排放政策下的供應鏈協調,通過建立集中式和分散式決策下的供應鏈模型,根據供應鏈協調的條件,給齣瞭供應鏈實現協調的契約形式及契約參數。為瞭確定不同碳排放政策下的最優訂貨量和最優碳減排率,通過對博弈模型進行優化,提齣瞭具體的求解方法。數值計算結果錶明:隨著碳排放政策的變化,供應鏈的最優訂貨量、最優碳減排率和供應鏈的利潤也將髮生相應的變化,而生產成本、缺貨損失、產品殘值、銷售價格、批髮價格等參數變化不僅會影響最優訂貨量、最優碳減排率和供應鏈利潤,還會影響收益共享比例、碳減排技術投入和碳排放成本的分攤比例。
재고필탄감배기술투입하,위료실현불동탄배방정책하적공응련협조,통과건립집중식화분산식결책하적공응련모형,근거공응련협조적조건,급출료공응련실현협조적계약형식급계약삼수。위료학정불동탄배방정책하적최우정화량화최우탄감배솔,통과대박혁모형진행우화,제출료구체적구해방법。수치계산결과표명:수착탄배방정책적변화,공응련적최우정화량、최우탄감배솔화공응련적리윤야장발생상응적변화,이생산성본、결화손실、산품잔치、소수개격、비발개격등삼수변화불부회영향최우정화량、최우탄감배솔화공응련리윤,환회영향수익공향비례、탄감배기술투입화탄배방성본적분탄비례。
Considering manufacturer technology to reduce emission, in order to achieve supply chain coor-dination under different carbon policy, supply chain models respectively under the centralized decision-making and decentralized decision-making are established, according to the conditions of the supply chain coordination, and the contract form and contract parameters of supply chain coordination are given.In or-der to determine the optimal order quantity and the optimal rate of carbon emission under different carbon policy, a concrete solving method is put forward through optimization of the game models.A numerical cal-culation results show that the optimal order quantity, the optimal carbon reduction rate and the profit of the supply chain under different carbon policy are different and they change with the changes in carbon policy . The changes of various parameters such as cost of production, back order loss, the salvage value of prod-uct, sales price, wholesale price not only affect the optimal order quantity, the optimal carbon reduction rate and the profit of the supply chain, but also affect income sharing ratio and the proportion of investment in carbon reduction technology and the cost of carbon emission proportion.