溫室氣體排放管制趨勢下－台灣石化產業之發展策略 / The development strategies of petrochemical industry in Taiwan－under the trend of severe GHG emission control

蔡錫津

Unknown Date

近年來，隨著能源價格不斷飆漲以及溫室氣體大量排放造成的氣候異常變化，引起世界各國對於提高能源使用效率與加強溫室氣體排放管制的重視。溫室氣體大多由化石燃料燃燒所產生。因此，一般被視為能耗較高的發電、鋼鐵、水泥以及石化等產業，遂成為眾所矚目而被要求加強溫室氣體排放管制的主要產業。未來的產業發展規劃，必需兼顧經濟與環保，否則必將被世界潮流所淹沒。 因應全球溫室氣體排放管制趨勢，就台灣經濟發展面、財政建設面、環境永續經營面等層面考量分析，現階段石化產業之發展應對產業競爭力及環境保護做更多且更審慎的考量。於產業競爭力部分，建議中油開放民營，並運用部份釋股取得的資金，一方面引進先進的製程技術及進行設備更新，提升企業競爭力；另一方面整合國內仰賴台灣中油公司供料且在各產品領域擁有數十年營運經驗的中下游業者，建構泛中油體系的石化經營團隊。如此泛中油體系與國內另一石化產品鏈已相當完整的台塑體系，形成兩大石化體系，互為良性競爭。於環境保護方面，則建議我國應終止國光石化投資案，降低溫室氣體排放量，並藉提升廠商製程效率減少能耗，如此將使經濟發展及環境保護得以兼顧，亦達成原興建國光計畫之目的。 而未來台灣石化產業發展策略，技術發展需長期向下扎根，產品則朝高值化、精緻化發展，開發低能耗、低污染之替代能源，提升產品的附加價值，並將大宗石化耗能的產品移往海外能源低廉的地區，持續提升產業競爭力，並達成溫室氣體減少排放為目標。如是，台灣在環境保護日益重視之趨勢下，石化產業也得以永續發展。 / The high energy cost and the unusual climate change due to increasing green house gases（GHG）emission in recent years have attracted the global attentions and called for improvement of energy utilization efficiency and enhancement of GHG emission control. GHG are mostly produced by the combustion of fossil fuels. And the higher energy consumption industries such as power generation, steel, cement and petrochemical industries are thus strongly requested to reduce GHG emission. Economic development and environmental protection both are needed to be equally evaluated in the planning of future industry development. Taking petrochemical industry as an example, many of its mid-stream and down-stream products have become an unseparable part and of our daily life. In Taiwan, it has been over half century since the establishment of petrochemical industry, and now become top 10 petrochemical production countries in the world. The production value of petrochemical-related industries are very close to 4 trillion NT dollars, about 30% of total production value of domestic manufacturing sectors. Petrochemical industry and electronic industry are the two strong arms in supporting national economic growth. As a very important industry in Taiwan, however, the intensity of its GHG emission is only next to steel industry. The significant technology improvement in petrochemical industry has been achieved since the installation of the existing refinery, naphtha crackers and many petrochemical mid-stream production plants in Taiwan. It is well recognized that the GHG emission will be greatly reduced if the advanced technologies are introduced and the old facilities are revamped. Therefore, the writer would like to address a different approach toward KuoKuang Petrochemical Project which the government is giving an impetus to its execution. Here the writer would propose Taiwan CPC company, the state-owned petroleum company and the leader of Kuokuang Petrochemical Project, to become privatized after asset re-evaluation and collect some government capital from privatization through issuance of part of its shares to the open market. The capital thus collected can be used for enterprise reform. The important items of the enterprise reform include but not limited to introduction of the advanced technologies, revamping of existing facilities and establishment of a new well-integrated petrochemical conglomerate through mutual investment between Taiwan CPC and the mid-stream companies that rely raw material supplies from Taiwan CPC. From viewpoints of both economy and environment, government policy of implementation of KuoKuang Petrochemical Project is worthy for reconsideration. Formation of a CPC-lead petrochemical conglomerate would also benefit the current petrochemical companies that rely on raw material supplies from Taiwan CPC as their operation efficiencies would improved from business intergration. The newly formed conglomerate would be more powerful in further business development and more competitive in world market. They would have more resources to explore their potential in advanced technology development, in new business fields such as biomass energy, solar energy and so on. The CPC-lead petrochemical conglomerate would be able to enchance its competitiveness to another domestic petrochemical giant, Taiwan Formosa Group, and other petrochemical giants in the global market.

溫室氣體

能源使用效率

化石燃料

石化業

輕油裂解廠

生質能

太陽能

Green House Gases（GHG）

Energy Utilization Efficiency

Fossil Fuel

Petrochemical Industry

Naphtha Cracker

Biomass Energy

Solar Energy

大気中メタンの発生源評価-大気拡散モデル解析・大気放射能測定・同位体比測定によって-

飯田, 孝夫, 池辺, 幸正, 吉田, 尚弘, 中村, 俊夫

03 1900

科学研究費補助金 研究種目:基盤研究(B)(2) 課題番号:08458144 研究代表者:飯田 孝夫 研究期間:1996-1997年度

ラドン

大気拡散

日変動

水田

非化石起源メタン

メタンフラックス

拡散方程式

メタン同位体比

メタン発生率

diffusion equation

diurnal variation

paddy field

乱流拡散係数

炭素同位体比

methane flux

non-fossil fuel

atmospheric diffusion

radon

isotope ratio

Preliminary Feasibility of Transporting and Geologically Sequestering Carbon Emissions in the Florida Pan-Handle

Poiencot, Brandon Keith

01 January 2012

According to the United States Department of Energy, fossil-fueled power plants account for 78% of stationary source CO2 emission in the United States and Canada. This has led electric utilities across the globe to research different alternatives for energy. Carbon sequestration has been identified as a bridge between fossil fuels and clean energy. This thesis will present research results regarding the transportation costs of CO2 and the suitability of geology in the Florida Pan-Handle for sequestration infrastructure. The thesis will utilize various evaluation tools including GIS, numerical models, and optimization models. Analysis performed for this thesis and review of published literature produced estimated carbon storage capacities for two areas in and near the Florida Pan-Handle. These areas were labeled Disposal Area 1 and Disposal Area 3. Disposal Area 1 was estimated to contain capacity for the storage of 5.58 gigatonnes of CO2. Disposal Area 3 was estimated to contain capacity for the storage of 2.02 gigatonnes of CO2. Transportation scenarios were analyzed over a 25 year period and the capacities above are sufficient to store the CO2 emissions from the Pan-Handle network of power plants for the study period. Four transportation routing scenarios were investigated using transportation costs from the Poiencot and Brown CO2 pipeline capital cost model. The scenarios (models) consisted of the Right-Of-Way, Solo-Funded, Piece-Wise, and Authority models. Each presents a different method for the overall funding of the Florida Pan-Handle CO2 network and produced different total levelized and mean unit costs. The cheapest network on a mean unit cost basis was the network for Disposal Area 1 in the Authority Model, producing a mean unit cost of $0.64 per tonne of CO2.

Thesis

University of North Florida

UNF

Dissertations

Dissertations

Academic -- UNF -- Engineering

Civil and Environmental Engineering

Civil Engineering

Engineering

Transitioning Central Appalachia: Understanding Framework Conditions Supporting the Adaptation to New Energy Economies

Jonathan, Norris Allen

11 July 2018

No description available.

Alternative Energy

Area Planning and Development

Climate Change

Economic Theory

Economics

Environmental Studies

Natural Resource Management

Energy

Public Administration

Sustainability

energy

Appalachia

coal

boom

bust

oil and gas

resource curse

natural resources

governance

institutions

economic diversity

economic diversification

shale

shale revolution

fossil fuel

Integrated farming systems for food and energy in a warming, resource-depleting world

Rodriguez, Lylian

29 August 2011

Diese Arbeit ist ein Beitrag zur Entwicklung einer Strategie für die eine CO2 sparende zu- künftige Landwirtschaft, in der nur geringe Emissionen von Treibhausgasen entstehen, die Stromerzeugung vor Ort aus natürlichen Ressourcen erfolgt, eine maximale Ausnutzung der Sonnenenergie genutzt wird, und der Konflikt zwischen der Nutzung der verfügbaren Ressourcen für Nahrungsmittel und Treibstoff Produktion vermieden wird. Alle Versuche in der Arbeit wurden in den Jahren 2005 -2009 auf der Öko-Farm (TOSOLY) der UTA (Fundación para la Producción Agropecuaria Tropical Sostenible Capitulo Kolumbien - UTA) unter der Leitung von Dr. TR Preston (Präsident ) und MSc Lylian Rodríguez (Director) durchgeführt. / This thesis is a contribution to the strategy that should underpin all future farming systems: namely the need to “de-carbonize” the system, by reducing emissions of greenhouse gases, generating electricity locally from natural resources, making maximum use of solar energy and ensuring there is no conflict between use of available resources for both food and fuel production. All the experiments described in the thesis were carried out in the period 2005 -2009 at the ecological farm (TOSOLY) of the UTA Foundation (Fundación para la Producción Agropecuaria Tropical Sostenible Capitulo Colombia – UTA) of which the principals are Dr T R Preston (President) and MSc Lylian Rodríguez (Director).

Klimawandel

Biochar

Biodigester

Biomasse

Kohlenstoff-Fußabdruck

Kohlenstoffbindung

Rinder

Elektrizität

Energie

EROEI

Rohstoffe

fossile Brennstoffe

Vergasung

die globale Erwärmung

Ziegen

Treibhausgasemissionen

Vieh

Schweine

Fruchtbarkeit des Bodens

nachhaltigen Bewirtschaftungssysteme

climate change

carbon sequestration

Biochar

biodigesters

biomass

carbon footprint

cattle

electricity

energy

EROEI

feedstock

fossil fuel

gasification

global warming

goats

greenhouse gas emissions

live stock

pigs

soil fertility

sustainable farming systems

630 Landwirtschaft, Veterinärmedizin

39 Landwirtschaft, Garten

ZA 55200

ZA 57300

ZA 57400

ZD 73200

ddc:630