熱能與動力專業本科論文選題
Ⅰ 熱能與動力工程畢業論文寫哪方面好
其實熱能專業畢業論文不一定要寫非常高深的東西,只要是實際需要的、或有實際應用推廣價值的課題就可以去寫,去研究的。建議與指導老師一起討論一下課題,畢竟老師見多識廣,對用戶的需求也了解。
Ⅱ 熱能與動力工程畢業論文
熱能與動力工程畢業論文,免費熱能與動力工程畢業論文,熱能與動力工程專業畢業論文,熱能與動力工程畢業論文範文
Ⅲ 電廠熱能動力工程畢業論文咋寫開題報告還有思路論文要求要8000字數以上啊
《燃煤電廠鍋爐煙氣凈化用除塵過濾材料的試驗研究》,這是我的題目,只要是試驗部分很難。但是苦惱的很,還是學長給的莫文網,很快就幫忙搞定了
參考下吧:針對工程需求,本課題重點改進了針刺濾料結構、材料組成和後
整理措施,即採用具有表面超細纖維層、逐層逐漸採用更粗纖維層的梯度結構;過濾層主要採用PTFE與PPS復合纖維,採用PTFE與適量玻璃纖維做底層,。
Ⅳ 西安交通大學繼續教育學院畢業論文(熱能與動力工程函授)
你的熱能與動力工程論文准備往什麼方向寫,選題老師審核通過了沒,有沒有列個大綱讓老師看一下寫作方向?
老師有沒有和你說論文往哪個方向寫比較好?寫論文之前,一定要寫個大綱,這樣老師,好確定了框架,避免以後論文修改過程中出現大改的情況!!
學校的格式要求、寫作規范要注意,否則很可能發回來重新改,你要還有什麼不明白或不懂可以問我,希望你能夠順利畢業,邁向新的人生。
一、編寫提綱的步驟:
(一)確定論文提要,再加進材料,形成全文的概要
論文提要是內容提綱的雛型。一般書、教學參考書都有反映全書內容的提要,以便讀者一翻提要就知道書的大概內容。我們寫論文也需要先寫出論文提要。在執筆前把論文的題目和大標題、小標題列出來,再把選用的材料插進去,就形成了論文內容的提要。
(二)原稿紙頁數的分配
寫好畢業論文的提要之後,要根據論文的內容考慮篇幅的長短,文章的各個部分,大體上要寫多少字。如計劃寫20頁原稿紙(每頁300字)的論文,考慮序論用1頁,本論用17頁,結論用1—2頁。本論部分再進行分配,如本論共有四項,可以第一項3—4頁,第二項用4—5頁,第三項3—4頁,第四項6—7頁。有這樣的分配,便於資料的配備和安排,寫作能更有計劃。畢業論文的長短一般規定為5000—6000字,因為過短,問題很難講透,而作為畢業論文也不宜過長,這是一般大專、本科學生的理論基礎、實踐經驗所決定的。
(三)編寫提綱
論文提綱可分為簡單提綱和詳細提綱兩種。簡單提綱是高度概括的,只提示論文的要點,如何展開則不涉及。這種提綱雖然簡單,但由於它是經過深思熟慮構成的,寫作時能順利進行。沒有這種准備,邊想邊寫很難順利地寫下去。
二、畢業論文提綱的擬定
如何落筆擬定畢業論文提綱呢?首先要把握擬定畢業論文提綱的原則,為此要掌握如下四個方面:
(一)要有全局觀念,從整體出發去檢查每一部分在論文中所佔的地位和作用。看看各部分的比例分配是否恰當,篇幅的長短是否合適,每一部分能否為中心論點服務。比如有一篇論文論述企業深化改革與穩定是辯證統一的,作者以浙江××市某企業為例,說只要幹部在改革中以身作則,與職工同甘共苦,可以取得多數職工的理解。從全局觀念分折,我們就可以發現這里只講了企業如何改革才能穩定,沒有論述通過深化改革,轉換企業經營機制,提高了企業經濟效益,職工收入增加,最終達到社會穩定。
Ⅳ 熱動畢業論文選題
很多都可以寫啊,熱能、動力、汽機鍋爐、循環水==
Ⅵ 電廠熱能動力工程畢業論文怎麼寫好結合發電機熱能轉換優化技術應該可以吧
可以當然可以,關鍵是論文觀點要麼有創新,要麼有通用性和指導性。
Ⅶ 求函授本科畢業論文 專業是熱能動力設備與應用,工作的專業是發電廠鍋爐檢修
中國知網也好!
萬方數據也好都有例子!
甚至網路文庫都有!
==================論文寫作方法===========================
論文網上沒有免費的,與其花人民幣,還不如自己寫,萬一碰到騙人的,就不上算了。
寫作論文的簡單方法,首先大概確定自己的選題,然後在網上查找幾份類似的文章
通讀一些相關資料,對這方面的內容有個大概的了解!
參照你們學校的論文的格式,列出提綱,補充內容!
實在不會,把這幾份論文綜合一下,從每篇論文上復制一部分,組成一篇新的文章!
然後把按自己的語言把每一部分換下句式或詞,經過換詞不換意的辦法處理後,網上就查不到了!
最後,到萬方等地進行檢測,將掃紅部分進行再次修改!
祝你順利完成論文!
Ⅷ 求一篇熱能動力工程方面的論文,字數在9000字,還要求參考三篇文獻,有加分哦!謝謝!
近二十年來,以振動為主要原因造成的惡性事故相繼發生,給國家造成了巨大經濟損失。而且,振動問題目前仍是新投運大機組不能按期並網、正常投運的主要原因,在機組正常運行期間,振動問題連續不斷,影響到正常生產,經常出現機組減負荷和帶病運行的情況,甚至使機組被迫停機處理,這些事故屢見不鮮。本系統基於LabVIEW虛擬儀器軟體平台,對汽輪機振動信號進行讀取加窗,並進行譜分析及自相關分析。LabVIEW虛擬儀器就是在以通用計算機為核心的硬體平台上,由用戶設計定義、具有虛擬前面板、測試功能由測試軟體實現的一種計算機儀器系統。本系統主要完成了對汽輪機振動信號進行讀取,對信號進行矩形窗、漢寧窗、海明窗的加窗選擇,然後分別進行信號的幅值譜、功率譜、相位譜分析及自相關分析,並且具有圖形操作及顯示界面。系統運行結果證明,本系統能夠完成對信號的讀取,並進行三種窗函數及各種分析的動態選擇,並用圖形顯示結果。
Over the last 20 years, mainly e to the vibration caused by the fatal accidents occurred one after another, inflicting huge economic losses. Furthermore, the vibration is still new to large units shipped impossible grid, the normal operation for the main the crew ring normal operations, continuous vibration problems affecting the normal proction, Units often reced load and operation of the sick, and even the unit was forced to stand, these incidents not uncommon. The system based on LabVIEW virtual instrument software platform for turbine vibration signal window read, and spectral analysis and correlation analysis. LabVIEW virtual instrument is a common core of computer hardware platform, defined by the user, with virtual front panel, the test function test software from a computer equipment system. The system completed the turbine vibration signal read, the signal rectangular window Hanning, Hamming window window choice, and then the signal amplitude spectrum, power spectrum and phase spectrum analysis and correlation analysis, and operating with graphics and display interface. The result of running the system proved that the system can accomplish the signal read, and three window function and the dynamic analysis of the various options and graphical display with the results.
專業前景 本專業以工程熱物理學科為主要理論基礎,以內燃機和正在發展中的其它新型動力機械及系統為研究對象,運用工程力學、機械工程學、自動控制、計算機、環境科學、微電子技術等學科的知識和內容,研究如何把燃料的化學能和液體的動能安全、高效、低(或無)污染地轉換成動力的基本規律和過程,研究轉換過程中的系統和設備的自動控制技術。隨著常規能源的日漸短缺,人類環境保護意識的不斷增強,節能、高效、降低或消除污染排放物、發展新能源及其它可再生能源成為本學科的重要任務,在能源、交通運輸、汽車、船舶、電力、航空宇航工程、農業工程和環境科學等諸多領域獲得越來越廣泛的應用,在國民經濟各部門發揮著越來越重要的作用。 培養目標 本專業方向培養具備熱能與動力工程專業方面的基本理論、基本知識和基本技能,能在國民經濟各部門從事熱力發動機和其它新型動力機械及設備的設計、製造、管理、教學和科研等方面的高級工程技術人才。 培養特色 本專業在加強學生基礎理論和綜合素質教育的同時,加強計算機及自動控制技術的應用,強化專業實踐教學,注重全能訓練,全面提高學生的實踐動手能力和科學研究潛力,使畢業生具有較強的擇業競爭能力和較寬的就業適應能力。 主幹課程 機械制圖、機械原理、機械設計、理論力學、材料力學、工程材料、電工技術、電子技術、計算機軟體基礎、液壓技術、液力傳動、內燃機構造、內燃機原理、內燃機設計、內燃機試驗、發動機電子技術、工程熱力學、流體力學、傳熱學、自動控制理論、現代測試技術等。 就業方向 畢業後可從事能源與動力設備的行政管理、內燃機及新型動力設備的開發研製、內燃機排放控制、新能源利用、汽車工業、兵器工業、環保工業、交通運輸業、船舶、電力、航空宇航工業等方面的工作。
The prospect of major works of the major hot in physics as the main theoretical basis to the internal combustion engine and the other is the development of new machinery and power systems for the study, the use of engineering mechanics, mechanical engineering, automation, computers, environmental science, microelectronics technology disciplines, such as content knowledge and to study how the chemical energy of fuel and liquid kinetic energy security, high-performance, low (or none) of pollution to the power into the basic law and the process of research in the conversion process of the automatic control systems and equipment technology . With the growing shortage of conventional energy, human the growing awareness of environmental protection, energy saving, high efficiency, rece or eliminate polluting emissions, the development of new energy and other renewable sources of energy has become an important task for the subjects in the energy, transportation, automotive, ships, electricity, aviation aerospace engineering, agricultural engineering and environmental science in many fields such as access to more and more widely used, the department in the national economy is playing an increasingly important role. Cultivate cultivate goal with the direction of the major thermal power projects with the major aspects of the basic theory, basic knowledge and basic skills, to engage in various departments in the national economy and other heat engines power the new machinery and equipment design, manufacture, management, teaching and scientific research aspects of advanced engineering and technical personnel. Cultivate major characteristics of the students in strengthening the basic theory and the overall quality of ecation, to strengthen the computer and automatic control technology, and strengthen the teaching of professional practice, pay attention to all the training, students enhance the practice of comprehensive practical ability and scientific research potential, so that graates have strong competitiveness and a wide choice of employment adaptability. Mechanical Drawing trunk curriculum, mechanical principles, mechanical design, theoretical mechanics, mechanics of materials, engineering materials, electrical technology, electronics technology, computer software foundation, hydraulic technology, hydraulic transmission, the internal combustion engine structure, the principle of internal combustion engines, internal combustion engine design, the internal combustion engine testing, engine electronic technology, engineering thermodynamics, fluid mechanics, heat transfer, automatic control theory, modern test technology. Employment after graation can be engaged in the direction of energy and power equipment, administration, internal combustion engines and new development of power equipment, internal combustion engine emission control, new energy use, the auto instry, the weapons instry, instrial environmental protection, transport, shipping, electricity, air space instrial job.
Motor vehicles are not the only air polluters. Coal and oil, used to heat homes and factories and to generate electricity, contain small amounts of sulfur. When the fuels are burned, sulfur dioxide, a poisonous gas, is proced. It is irritating to the lungs. Some cities have passed laws that allow coal and oil to be burned only if their sulfur content is low.
汽車不是唯一的空氣污染。煤炭和石油,用於家庭取暖和工廠,並產生電力,含有少量的硫。當燃料燃燒,二氧化硫,一種有毒氣體,就產生了。它是刺激到肺部。一些城市已通過法律,允許煤炭和石油只有在其被燒毀硫含量低。
Most electricity is generated by steam turbines. About half of the sulfur dioxide in the air comes from burning fuel to make steam. Nuclear power plants do not burn fuel, so there is no air pollution of the ordinary kind. But the radioactive materials in these plants could present a danger in an accident. Also, there is a problem in disposing of the radioactive wastes in a way that will not endanger the environment.
大部分電力是由蒸汽渦輪機。關於空氣中的二氧化硫,使蒸汽一半來自燃料燃燒。核電廠不燒燃料,所以不存在的那種普通的空氣污染。但是,在這些植物的放射性物質可能會提出一個意外的危險。此外,還有一個在放射性廢物處置的方式,不會危害環境的問題。
Another type of pollution, called thermal (heat) pollution, is caused by both the fuel-burning and nuclear plants. Both need huge amounts of cold water, which is warmed as it cools the steam. When it is returned to the river, the warm water may stimulate the growth of weeds. It may also kill fish and their eggs, or interfere with their growth.
另一種污染類型,稱為熱(熱)污染,是造成雙方的燃料燃燒和核電廠。雙方都需要的冷水,這是溫暖,因為它大量的蒸汽冷卻。當返回到河邊,溫暖的水會刺激雜草生長。它也可以殺死魚,它們的卵,或干擾他們的成長。
Physicists are studying new ways of generating electricity that may be less damaging to the environment. In the meantime, many power plants are being modernized to give off less polluting material. Also, engineers try to design and locate new power plants to do minimum damage to the environment.
物理學家們正在研究發電對環境損害較小的新方法。與此同時,許多發電廠也在實現現代化以減少污染物質。此外,工程師們嘗試設計並找到對環境的損害最小的新的發電廠。
Thermal energy and power engineering
This program is to cultivate both master thermal energy and power engineering professional basic theoretical knowledge, computing skills, but also the ability in various forms of generating power plant, refrigeration and air conditioning, new energy related fields in need of economic management knowledge and ability, can be engaged in the electric power instry related to areas of science and technology application, research, development and management of a senior talents. According to the national construction and talents needs, set up the professional direction includes: thermal power engineering, power plant set control operation, refrigeration and air conditioning engineering, gas power engineering, advanced energy engineering etc.
Major courses: theoretical mechanics, mechanics of materials, engineering thermodynamics, engineering fluid mechanics, heat transfer, turbine principle, boiler principle, thermal power plants, the pump and fan, automatic control theory, motor learning, circuit theory, the control system, unit unit operation principle, thermal process detection technology, engineering graphics, mechanical design basis, electrician technical basis, electronic technology base, refrigeration and cryogenic principle, refrigeration compressor, refrigeration automation and testing technology, gas turbine principle, gas gas-steam combined cycle power plant, gas turbine combined-cyde operation and maintenance, nuclear reactor theoretical basis, nuclear system and the maintenance, the PWR nuclear power plant system and equipment, wind power generation principle, professional class.
Employment place to go: large-scale modernized electric power enterprise, power equipment manufacturing enterprises and energy class enterprise engaged in proction, operation and management work, Government departments at all levels and institution engaged in energy, power, energy saving, environmental planning, design, construction, operation, consultation and supervision work; etc. Research institutes, universities in energy and power related research and development, teaching, management, etc.