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Title: | 最適能源稅率、稅收用途及其3E效果的關聯分析 Linkage between Energy Tax Rate,Tax Revenue Disposals and 3E Effects |
Authors: | 章秀秀 |
Contributors: | 黃宗煌 章秀秀 |
Keywords: | 能源稅率 稅收用途 3E效果 |
Date: | 2010 |
Issue Date: | 2016-05-09 15:16:35 (UTC+8) |
Abstract: | 本文擬建構一包含家計部門、能源供應商以及政府三部門之模型,以理論模型與模擬分析來探討最適能源稅率之訂定以及課徵能源稅對其他經濟變數之間的關聯性。 在模型設定上,本文有別於傳統文獻直接將能源消費放入效用函數中,而是以能源服務作為家計單位效用函數之影響變數,並透過家計單位之生產函數,結合能源與能源設備特徵,以生產能源服務,以此來建構家計單位之最適化模型。在政府決策方面,以享受能源服務之總成本最小,受限於政府預算平衡以及市場均衡之下,推導出最適能源稅率。 至於模擬分析部份,則是透過設計五種不同情境,除了基準情境不課徵能源稅外、另設計四種課徵能源稅的情境,並配合四種不同稅收用途,以內生求解方式,分別模擬出各情境下之最適能源稅率,以及其對能源、省能設備需求、二氧化碳排放及其他經濟變數的影響。再以不同之二氧化碳排放環境損害係數,作敏感度分析。 最後,透過不同政策優先之社會權數,就3E效果,包括能源、環境、經濟三方面影響,來比較各情境下所模擬出的總和結果,以加權計分方式,得出最適能源稅政策之配套措施,並配合我國現行能源相關稅費,歸納分析出政府未來開徵能源稅所應採行之政策工具及整合方向。 經過本文研究發現,訂定最適能源稅率之影響因素,除了傳統文獻所強調的環境損害成本應將之內部化以外,尚包括對能源服務支出的影響、對能源市場所產生的扭曲,以及對稅收的影響等。其中能源設備特徵需求之變動在訂定能源稅率時,扮演非常重要的角色。能源設備特徵需求之變動同時會影響能源服務單位成本與能源服務需求,為最適能源稅率之減項,甚至在環境損害成本中亦受到能源設備特徵變動,改變其設備之二氧化碳排放係數,使得環境損害成本降低,亦為最適能源稅率之減項。根據本模擬結果顯示,課能源稅使得能源價格上漲,能源設備特徵需求提高,勞動供給微幅增加,能源需求、二氧化碳排放量下降,家計所得、社會總成本、總稅收增加。表示課徵能源稅對降低能源需求,鼓勵消費者多選購節能產品,有相當明顯之效果。此外,當環境損害係數愈高,二氧化碳排放係數愈高之能源,其能源稅率應愈高。最後,本文利用不同之社會權數組合,得出課徵能源稅同時降低勞動稅,並將稅收投入環保支出所產生之3E效果相較其他政策配套為佳。而在推動綠色租稅改革之際,除了能源稅率訂定之合理化外,仍應作相關整合,包括油氣類產品之貨物稅應廢止,以避免重複課稅;並在訂定能源稅率時,將徵收空氣污染防制費所產生二氧化碳排放減量的效果一併考慮。 This thesis intends to construct a model which includes 3 sectors of household, energy supplier and government to derive the optimal energy tax rate and analyze the correlation between energy tax and the economic variations. Households combine energy and energy equipment characteristics to generate the energy service. This research uses energy service as variables of household utility function and designs a energy service production function of household. This is different from traditional literature which use energy productions directly as variables of household utility function. The theoretical model derives the optimal energy tax rate by minimize the cost for energy services subject to government budget balance and market equilibrium conditions. And five different scenarios including the base, tax added, green tax reform, tariff reduction, as well as total emission control, with four disposals of tax revenue are designed for the simulation to solve the energy tax rate and the other variables endogenously. In addition, the environmental damage coefficient of carbon dioxide emissions is used for the sensitivity analysis. Eventually, this study weighted the simulated results to devise the optimal policy package by the social weights of policy priorities. The social weights is given according to 3E effects including energy, environmental and economic impact. The findings of this research are summarized as followed: (1)the factors for setting the optimal energy tax rate, in addition to the marginal environmental damage as the traditional literature emphasized and, it should also include the changes of the expenditures for energy services, distortion in energy markets, as well as the impacts to tax revenue including labor tax and tariff. (2) The simulation results show that the energy tax increases the energy price, demand of energy-saving products, labor supply, household income, total social costs, total tax revenues and decreases energy demand and carbon dioxide emission. (3) The higher the environmental damage coefficient of carbon dioxide emissions, the energy tax rates should be higher. (4) Green tax reform with the disposal of the tax revenue on environment protection generate the best 3E results comparing with the other policy package. (5) The excise tax of oil and gas products should be abolished, in order to avoid double taxed; and the Air Pollution Control Fee resulting the reduction of carbon dioxide emissions should be taken into account in determining the energy tax rate. |
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Description: | 博士 國立政治大學 財政學系 90255505 |
Source URI: | http://thesis.lib.nccu.edu.tw/record/#G0902555051 |
Data Type: | thesis |
Appears in Collections: | [財務管理學系] 學位論文
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