电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2014年
17期
137-142
,共6页
低碳电力技术%碳捕集电厂%实物期权理论%投资时机%决策模型
低碳電力技術%碳捕集電廠%實物期權理論%投資時機%決策模型
저탄전력기술%탄포집전엄%실물기권이론%투자시궤%결책모형
low carbon power technology%carbon-capture power plant%real option theory%investment opportunity%decision model
为了改善发电厂碳捕集系统投资价值评估的适应性和可靠性,结合碳捕集系统风险投资的期权特征,基于实物期权理论提出了碳捕集系统最佳投资时机决策数学模型。在考虑了系统投资决策的不可逆性和可延迟性以及碳价和碳减排成本的不确定性的基础上,得出了投资时机临界值和开发发电厂碳捕集系统的最优投资策略。数值算例分析表明,该模型合理地评估了风险投资的机会成本,最大限度地挖掘了系统的潜在价值。与传统净现值评估方法进行对比,该方法克服了净现值法低估风险价值的缺陷,有效地指导了碳捕集系统风险投资时机的选择,而不是做出立即投资或者是选择不开发的简单决策。该模型为发电厂碳捕集系统的投资提供了量化分析的数学工具和科学的参考依据。
為瞭改善髮電廠碳捕集繫統投資價值評估的適應性和可靠性,結閤碳捕集繫統風險投資的期權特徵,基于實物期權理論提齣瞭碳捕集繫統最佳投資時機決策數學模型。在攷慮瞭繫統投資決策的不可逆性和可延遲性以及碳價和碳減排成本的不確定性的基礎上,得齣瞭投資時機臨界值和開髮髮電廠碳捕集繫統的最優投資策略。數值算例分析錶明,該模型閤理地評估瞭風險投資的機會成本,最大限度地挖掘瞭繫統的潛在價值。與傳統淨現值評估方法進行對比,該方法剋服瞭淨現值法低估風險價值的缺陷,有效地指導瞭碳捕集繫統風險投資時機的選擇,而不是做齣立即投資或者是選擇不開髮的簡單決策。該模型為髮電廠碳捕集繫統的投資提供瞭量化分析的數學工具和科學的參攷依據。
위료개선발전엄탄포집계통투자개치평고적괄응성화가고성,결합탄포집계통풍험투자적기권특정,기우실물기권이론제출료탄포집계통최가투자시궤결책수학모형。재고필료계통투자결책적불가역성화가연지성이급탄개화탄감배성본적불학정성적기출상,득출료투자시궤림계치화개발발전엄탄포집계통적최우투자책략。수치산례분석표명,해모형합리지평고료풍험투자적궤회성본,최대한도지알굴료계통적잠재개치。여전통정현치평고방법진행대비,해방법극복료정현치법저고풍험개치적결함,유효지지도료탄포집계통풍험투자시궤적선택,이불시주출립즉투자혹자시선택불개발적간단결책。해모형위발전엄탄포집계통적투자제공료양화분석적수학공구화과학적삼고의거。
In order to improve the adaptability and reliability for evaluation of the investment value of power plant carbon capture systems,a decision-making mathematical model for carbon-capture system optimal investment timing is proposed based on the real option theory by referring to the real option characteristics of venture capital investment for carbon capture systems. By taking into account the irreversibility and delay ability of investment decisions,and the uncertainties of carbon price and carbon mitigation cost,the investment critical value and the optimal investment strategy for power plant carbon capture systems are obtained.The results of numerical example reveal that the model can make a rational assessment for the opportunity cost of venture capital investment,and the potential value of the project can be exploited as much as possible. Compared with the traditional net present value assessment method,the proposed model can overcome the defects of the net present value method,and effectively guide the timing of carbon capture system risk investment,rather than make the simple decision on immediate investment or nondevelopment.The model has provided a quantitatively analytic mathematical tool for the investment carbon capture system in a power plant that can be used as scientific reference for decision-makers.