政府(语言学)
预算约束
业务
约束(计算机辅助设计)
补贴
生物能源
生物量(生态学)
政府预算
产量(工程)
自然资源经济学
生产(经济)
环境经济学
经济
农业经济学
生物燃料
供应链
微观经济学
工程类
营销
废物管理
公共财政
农学
生物
宏观经济学
哲学
冶金
材料科学
语言学
市场经济
机械工程
作者
Fei Ye,Zigong Cai,Ying‐Ju Chen,Yina Li,Gang Hou
摘要
Abstract The success of the bioenergy industry will depend, in part, on enough biomass feedstocks being grown. To increase the reliability of feedstocks supply, a government can offer two types of subsidy program: a farmer subsidy program (FSP) and a bioenergy producer subsidy program (PSP). We develop models to analyze the optimal subsidy program by capturing the interactions between the government, the bioenergy producer, and the farmers. The models incorporate the subsidy budget constraint, the environmental benefits from the use of bioenergy, the farmer's risk aversion and land capacity constraint, as well as the yield uncertainty of feedstocks. The findings reveal that both FSP and PSP are effective as long as the farmers' land capacity exceeds a threshold. If both the subsidy budget and the land capacity are sufficiently large, PSP outperforms FSP; if only the subsidy budget is limited, FSP is better; if only the land capacity is limited, FSP and PSP are equivalent. Counter‐intuitively, we find that PSP always favors farmers more, while FSP favors the bioenergy producer more under certain conditions. Also, we find that FSP can better mitigate risk than PSP when yield uncertainty is high. Lastly, insights for policy makers to promote bioenergy development are highlighted.
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