影音先锋av色图,欧美一级淫片免费播放口,欧美 亚洲 图 色 视频,中文字幕 日韩 人妻 无码,99精品欧美一区二区三区国产,激情久久免费视频

手機(jī)版
1 2 3 4
首頁(yè) > 新聞中心 > 翻譯公司資訊 >
翻譯公司資訊

世聯(lián)翻譯公司完成“流體設(shè)備”英文翻譯

發(fā)布時(shí)間:2020-01-09 08:57  點(diǎn)擊:

世聯(lián)翻譯公司完成“流體設(shè)備”英文翻譯
    Exhaust
Base engine Speed backpressure limit
All JU4   30
All JU6 except models below   30
UF34, UF54, UFAB76, UF84 2800 25
UF34, UF54, UF84 3000 25
UF30, UFG8,    
UFABL8, UFM8, UF58, 1470 20
UF68, UFAAPG    
 
 
148
Note: Intake Air Shutoff Valve - Engine may include an intake air shutoff valve as an optional feature that is activated by an overspeed event and provides a positive shutoff of combustion air to the engine. The optional air intake shutoff valve has not been evaluated by UL as part of a UL Listed fire pump driver.
 
 
147
Base engine Speed Air filter restriction
All JU4   10
All JU6 except models below   12
UF30, UFABL8, UFM8, UF58, UF68, UFAAPG 1470 10
UFD0, UFD2, UF30, UF32, UFABL0, UFABL2, UFM0, UFM2, UF50, UF52, UF60, UF62 2350 13
UFD2, UF32, UFABL2, UFM2, UF52, UF62 2600 13
 
 
159
 
3.5.5 Mechanical Engine Control and Alarm Board (MECAB) Speed Switch Troubleshooting
This engine may be equipped with a speed switch p/n C071571 capable of sensing engine sensor malfunctions and/or electrical over-current(s) on engine alarm circuits and alerting the user via flashing status lamps. This flashing status indication is done so with the red “OVERSPEED SHUTDOWN” lamp on the outside of the Clarke instrument panel (Figure #37A) and a red LED located on the middle of the speed switch inside of the Clarke instrument panel (Figure #37B). In addition to these flashing status lamps, a “Low Engine Coolant Temperature Alarm” is sent via engine / fire pump controller inter-connect circuit #312 as a means to alert the user outside of the engine room.
Note: When first applying battery power to the engine, or after activating the overspeed reset switch, the OVERSPEED SHUTDOWN lamp and red LED on the speed switch will flash several times. This is an “INITIALIZATION PATTERN” and is normal.
This will be referred to in the following troubleshooting section.
 
Figure #37A
List of Troubleshooting Malfunctions
Two (2) blinks – Electrical Current Exceeds 10 Amps on Alarm Circuits: Status lamps will flash two times continuously on the Clarke instrument panel and a “Low Engine Coolant Temperature” alarm will be sent to the fire pump controller via circuit #312.
Cause:
Electrical current exceeds 10 amps on one or more engine / fire pump controller inter-connect circuits
Engine run alarm (#2)
Engine overspeed alarm (#3)
Engine low oil pressure alarm (#4)
Engine high coolant temperature alarm (#5)
Engine low coolant temperature alarm (#312)
 
Corrective actions:
Check each of the above circuits to determine which contains the current overload.
Once circuit(s) overload are corrected: On the Clarke instrument panel, operate the “OVERSPEED RESET” switch for two (2) seconds and release (Figure #37C).
 
The “INITIALIZATION PATTERN will flash. This is normal. The continuous two (2) blink flash sequence should turn off at this point.
Three (3) blinks – Engine Coolant Temperature Sensor malfunction: Status lamps will flash three times continuously on the Clarke instrument panel and a “Low Engine Coolant Temperature” alarm will be sent to the fire pump controller via circuit #312.
 
Cause:
Engine coolant temperature sensor circuit is open or closed
Corrective Actions:
Verify wiring and connector plug at engine coolant temperature sensor are secure. Sensor is located behind engine thermostat housing
 
On the Clarke instrument panel, operate the “OVERSPEED RESET” switch for two (2) seconds and release. (Refer to Figure #37C).
The “INITIALIZATION PATTERN will flash. This is normal. The continuous three (3) blink flash sequence should turn off at this point.
 
If problem still exists, replace engine coolant temperature sensor, Clarke part number C071607
Five (5) blinks on instrument panel – Oil pressure switch or Engine speed sensor (magnetic pick-up) malfunction: Status lamps will flash five times continuously on the Clarke instrument panel and a “Low Engine Coolant Temperature” alarm will be sent to the fire pump controller via circuit #312.
Cause:
Oil pressure switch failure or magnetic pick-up failure.
 
Corrective Actions:
Oil Pressure switch check
Verify wiring and connector at engine oil pressure switch are secure. Pressure switch is located on left side of engine (JU models) and right side of engine (JW models)
With engine off, check continuity between the two terminals on the oil pressure switch. Note, do not disconnect wires when performing this task.
 
If circuit is open, replace oil pressure switch, Clarke part number C072011.
After new switch is replaced: On the Clarke instrument panel, operate the “OVERSPEED RESET” switch for two (2) seconds and release.
(Refer to Figure #37C)
The “INITIALIZATION PATTERN will flash. This is normal. The continuous five (5) blink flash sequence should turn off at this point.
 
If circuit is closed, the oil pressure switch is not damaged and is working normally as expected. Proceed to engine speed sensor check, below. Engine speed sensor (magnetic pick-up) check Verify wiring and connector at engine speed sensor are secure. Magnetic pick-up is located on top of the flywheel housing.
 
With engine running, verify that the tachometer is functioning normally.
Refer to section 3.5.4 of Engine Operator’s Manual to properly reposition the magnetic pick-up if tachometer is not functioning.
Once magnetic pick-up is repositioned: On the Clarke instrument panel, operate the “OVERSPEED RESET” switch for two (2) seconds and release.
(Refer to Figure #37C).
 
“OVERSPEED SHUTDOWN” lamp will flash a sequence of one (1) blink, then four (4) blinks. This is normal. The continuous five (5) blink flash sequence should turn off at this point. If problem still exists, replace engine speed sensor (magnetic pickup), Clarke part number C071883.
 
3.5.6 FIELD SIMULATION OF PUMP CONTROLLER ALARMS
Field simulation of (5) pump controller alarms
• Alarm 1: Over speed Shutdown: Follow over speed verification steps per section 3.5.3.
• Alarm 2: Low Oil Pressure: With the engine running, jumper across two outer terminals with wires attached to the engine mounted Low Oil Pressure switch.
Wait for 15 seconds and controller alarm will activate.
• Alarm 3: High Engine Coolant Temperature: With the engine running, set the High Engine Coolant Temperature DIP switch to “ON” (see Figure #37D). Use a fine pick or small screwdriver and slide the white slider to the left. Wait for 30 seconds and controller alarm will activate. Set white DIP switch slider to “OFF” (right) when simulation is complete.
 
Low Coolant Temperature Simulation switch
High Coolant Temperature Simulation switch
OFF
ON
Figure #37D
• Alarm 5: Overcrank: NEVER shut off the fuel supply to the engine to prevent it from starting. Shutting off the fuel supply will cause an air lock condition in the fuel system and possibly cause fuel system component damage.
ETR Governor Solenoid: Activate and hold the Overspeed Reset switch while performing the overcrank test. Switch must be held continuously each time the engine attempts a crank start. This will allow the engine to crank only but will prevent it from running.
ETS Governor Solenoid: Use manual stop override to prevent the engine from starting during the cycle-crank testing. Override must be held continuously each time the engine attempts a crank start. This will allow the engine to crank only but will prevent it from running.
 
154
3.4.7.1 Raw Water Supply
Most Clarke diesel engine fire pump drivers are heat exchanger cooled and some engines also have a charge air cooler (CAC) that uses raw water to cool the air before entering the intake manifold. If you have a radiator cooled Clarke engine, you can disregard this section. Heat exchanger cooled diesel engine drivers require a clean source of pressurized water from the discharge side of the fire pump in order to keep the engine from overheating by providing a specified minimum amount of raw water flow.
3.4.7.2 Cooling Loop
Note: Engine may include a cooling loop as an optional feature and has not been evaluated by UL as part of a UL Listed fire pump driver.
Figure #35D shows the standard NFPA 20 cooling loop piping arrangement. The cooling loop consists of an Automatic flow line with a 12V or 24V solenoid valve (HSC and ES pump applications only) that is energized to open anytime the engine is called upon to run from either the fire pump controller or from the engine instrument panel.
NOTE: VT type pumps applications do not require a solenoid valve in the Automatic flow line.
NOTE: With the Mechanical Engine and Alarm Control Board, See section 3.5.5, the solenoid valve will open 15 seconds after engine shutdown and will stay open for 60 seconds. This allows for raw water to flow through the heat exchanger and reduce the heat soak rise caused in the engine.
The second flow line is called the Manual by-pass line and it can be opened at any time if for any reason the engine shows signs of overheating. Each line has two (quarter turn) shutoff values installed and the normal position of the shutoff valve is to remain open in the Automatic flow line and remain closed in the Manual by-pass flow line.
NOTE: Opening up both lines to flow is never a problem should there be some concern of engine overheat, especially if there is an emergency situation. The Manual by-pass line can only be opened by an operator in the pump room.
The shutoff valves are all identified to show which are Normally Open (Automatic flow line) and which are Normally Closed (Manual by-pass flow line).
The shutoff valves are also used to isolate water pressure in the event of maintenance to pressure regulators, strainers and solenoid valve. Shutoff valves in the automatic flow line are provided with lockable handles for cooling loops that have been tested to FM requirements.
In each flow line there is also a pressure regulator. Each pressure regulator protects the downstream piping from over-pressurization which includes the tube side of the engine shell & tube heat exchanger (or CAC) and to control raw water flow rate. Typically the pressure regulators are set to limit downstream pressure to 60 psi (4 bar). There is a pressure gauge installed just upstream of the engine heat exchanger (or CAC) and downstream of the each pressure regulator. Under normal engine operating conditions with adequate cooling water flowing thru the heat exchanger (or CAC) this gauge should typically read below 20 psi (1.4 Bar).
Strainers are used to remove debris from the raw water supply. One strainer is in the Automatic flow line and the other is in the Manual by-pass flow line.
Note: See section 3.4.7.5 regarding strainer maintenance.

Standard Cooling Loop
Figure #35D
3.4.7.3 Setting Raw Water Flow Rate
The proper amount of raw water flow thru this line is of the utmost importance, and the pressure gauge value does little to indicate if there is sufficient flow. When the engine is exercised weekly, the amount of raw water flow exiting the piping to a floor drain should always be checked to verify it does not appear to have diminished.
During initial commissioning of the engine, it is important to correctly set the raw flow rate going thru the cooling loop. Each Clarke engine model has an Installation and Operation (I&O) Datasheet that provides basic operating conditions of the engine and most values are given based upon engine speed. You will find this datasheet in the Technical Catalog that is shipped with the engine for your specific Clarke model. This datasheet must be available during commissioning in order to set the proper minimum raw water flow. You will need to measure the raw water temperature and then find the value for recommended minimum raw water flow at your measured raw water temperature on the I&O Datasheet and then; with the fire pump flowing 150% of rated flow, and the Automatic flow line open; set minimum flow by using the adjusting screw at the top of the pressure regulator.
NOTE: To increase flow turn the adjusting screw clockwise and to reduce flow turn the adjusting screw counterclockwise.
You will need to capture the flow for a specific amount of time coming out of the heat exchanger and going to a floor drain in order to establish a reasonably accurate flow rate value. Using a container or bucket of known volume, record the time required to fill the container and compare to the gpm or L/min value provided on the I&O datasheet.
THIS IS CRITICAL FOR PROPER ENGINE COOLING AT MAXIMUM PUMP LOAD! After setting the pressure regulator in the Automatic flowline, open the Manual by-pass line valves, and then close the Automatic flowline valves and repeat the above process in order to set the flowrate going thru the pressure regulator in the Manual by-pass line. Once this is completed; close the Manual bypass valves and open the Automatic flowline valves to restore conditions back to normal.
3.4.7.4 Raw Water Outlet
NOTE: NFPA 20 does allow for the heat exchanger outlet flow to be returned to a suction reservoir. This makes it very difficult to measure the flowrate. When discharging to a suction reservoir, NFPA provides additional requirements:
1) A visual flow indicator and temperature indicator are installed in the discharge (waste outlet) piping.
2) When waste outlet piping is longer than 15ft (4.6m) and / or the outlet discharges are more
than 4ft (1.2M) higher than the heat exchanger, the pipe size increased by at least one size.
3) Verify that when the correct flow rate is achieved that the inlet pressure to the heat exchanger (or CAC) does not exceed 60psi (4bar)
If you have such an installation, it is recommended that you run the engine for a period of time at firepump 150% flow and confirm the visual flow indicator is showing water flow, the temperature rise is not excessive (usually no more than 40F (4.5C) over ambient raw water temperature) and the engine is showing no signs of overheating.
3.4.7.5 Raw Water Quality, Strainers and Deterioration of Heat Exchanger (or CAC)
Over time, as the heat exchanger (or CAC) begins to plug and foul, this pressure will rise and the flow will diminish which could mean that the heat exchanger (or CAC) may have to be replaced.
It can be not stressed enough how important it is to keep these strainers clean: Most engine failures occur due to plugged cooling loop strainers! If the raw water supply has debris in it (leaves, stones, etc) as the strainer accumulates more debris (that will not pass thru it), the flowrate will continue to diminish which will eventually starve the engine of adequate cooling water flow which will lead to engine overheat and catastrophic engine failure. When this occurs you have no fire protection! Clarke recommends that after the initial engine commissioning and also prior to each weekly exercise of the engine / fire pump set, both strainers be removed and cleaned and then re-installed before starting the engine.
3.4.7.6 Backflow Preventers
NFPA20 allows for the use of backflow preventers in the Automatic and Manual flow line of the cooling loop as required by local code. For specific application information contact factory.
3.4.7.7 Raw Water Outlet Temperature
Certain local codes may not allow you to discharge the waste water outlet from the engine heat exchanger either due to its temperature or it now being considered hazardous waste. It is
recommended you always check local codes regarding waste water discharge.
3.4.8 Flow Paths of Engine Cooling System
The engine coolant flows through the shell side of the heat exchanger (or radiator), engine coolant pump, oil cooler, engine block and cylinder head, jacket water heater, thermostat, expansion tank, and coolant recovery tank (if equipped).
On heat exchanger equipped engines raw cooling water flows through the tube side of the charge air cooler, if equipped, and the tube side of the heat exchanger.
Refer to Figures #35E for heat exchanger cooled engines and #35F for radiator cooled engines for cooling system flow path diagrams.
 
Figure 35F- radiator cooled engines
3.4.9 IMPORTANT SERVICE NOTICE
Any time an engine experiences a high coolant temperature alarm condition the primary cause of the overheat must be determined and the cause corrected to prevent a recurring overheat event.. Additionally, if an event of a restricted flow, collapsed hose, insufficient coolant level or failed pressure cap is experienced, further investigation of the cooling system is required.
 
1) The coolant shoud be drained (after deenergizing the coolant heater
2) Replace the engine thermostat(s)
3) Remove the engine water pump and inspect the impeller and seal for damage, replace as necessary. Reassemble and refill coolant according to the Installation and Operations Instruction Manual.
4) Run the engine to verify normal operating temperature.
3.4.9.1 Water Pump Cavitation
Cavitation is a condition that occurs when bubbles form in the coolant flow in the low pressure areas of the cooling system and implode as they pass to the higher pressure areas of the system. This can result in damage to cooling system components, particularly the water pump impeller and cylinder liners.
Cavitation in an engine can be caused by:
 Improper coolant
 Restricted coolant flow caused by collapsed hose or plugged system
 Coolant fill cap is loose or unable to retain the required pressure
 Insufficient fluid level
 Failure to de-aerate
 Overheat
151
3.4.1 Intended Engine Operating Temperature
The JU and JW engines are provided with either a heat exchanger or radiator to maintain the engine coolant temperature within recommended operating guidelines.
The JU4H, JU6H, and JW6H have an intended engine operating temperature of 160º F (71ºC) to 185º F (85º C). A high coolant temperature switch is provided to indicate a high coolant temperature alarm at 205º F (96º C) for heat exchanger cooled models and 215°F (102° C) for radiator cooled models.
 
2.6.4 Emergency Operation – ETR Engines Only
UL/FM Energized To Run (ETR) engines only In the event that the speed switch fails to energize the engine’s fuel injection pump solenoid, the engine instrument panel has been equipped with an Emergency Run Switch. This switch sends battery voltage directly to the fuel injection pump solenoid which allows for operation of the engine.
Additionally, the Emergency Run Switch will activate the engine raw water cooling loop solenoid if the engine is equipped with one.
If engine fails to run with standard starting procedures, follow these steps to start engine with Emergency Run Switch:
1. Open the door of the instrument panel
2. Locate the Emergency Run Switch, denoted by the yellow indication label
3. Remove the lock-out screw
4. Toggle switch to the ON position
a. Battery voltage will be sent to the fuel injection pump solenoid and the raw water cooling loop solenoid
5. To shut engine down ensure engine mode selector switch is set to Auto/Manual Stop, fire pump controller is keyed to OFF, and toggle the engine Emergency Run Switch to OFF position.
Note, activating the Emergency Run Switch will energize the fuel solenoid and the raw water cooling loop solenoid until the switch is returned to the OFF position. The switch should only be used as a manual, emergency means for operation of the engine in the event of speed switch failure. Replace speed switch immediately upon finding failure.
  
UL/FM Front Opening Instrument Panel
1 Emergency Operating Instructions
2 Automatic-Manual Mode Selector
Manual Crank Controls
4 Overspeed Reset
5 Manual Mode Warning Light
Overspeed Verification
Overspeed Indication Light
 
120
Turn off all cooling water lines.
109
Test for parallel and angular alignment with a straight edge and feeler gauge as shown in manufacturer’s instructions (at the end of this section). With coupling halves stationary, make trials at four places 90º apart. Perfect alignment occurs when a straight edge is level across the coupling halves and the same gauge just enters between the halves, both conditions at all points.
 
37
b) Air temperature

Unitrans世聯(lián)翻譯公司在您身邊,離您近的翻譯公司,心貼心的專業(yè)服務(wù),專業(yè)的全球語(yǔ)言翻譯與信息解決方案供應(yīng)商,專業(yè)翻譯機(jī)構(gòu)品牌。無(wú)論在本地,國(guó)內(nèi)還是海外,我們的專業(yè)、星級(jí)體貼服務(wù),為您的事業(yè)加速!世聯(lián)翻譯公司在北京、上海、深圳等國(guó)際交往城市設(shè)有翻譯基地,業(yè)務(wù)覆蓋全國(guó)城市。每天有近百萬(wàn)字節(jié)的信息和貿(mào)易通過(guò)世聯(lián)走向全球!積累了大量政商用戶數(shù)據(jù),翻譯人才庫(kù)數(shù)據(jù),多語(yǔ)種語(yǔ)料庫(kù)大數(shù)據(jù)。世聯(lián)品牌和服務(wù)品質(zhì)已得到政務(wù)防務(wù)和國(guó)際組織、跨國(guó)公司和大中型企業(yè)等近萬(wàn)用戶的認(rèn)可。 專業(yè)翻譯公司,北京翻譯公司,上海翻譯公司,英文翻譯,日文翻譯,韓語(yǔ)翻譯,翻譯公司排行榜,翻譯公司收費(fèi)價(jià)格表,翻譯公司收費(fèi)標(biāo)準(zhǔn),翻譯公司北京,翻譯公司上海。
  • “貴司提交的稿件專業(yè)詞匯用詞準(zhǔn)確,語(yǔ)言表達(dá)流暢,排版規(guī)范, 且服務(wù)態(tài)度好。在貴司的幫助下,我司的編制周期得以縮短,稿件語(yǔ)言的表達(dá)質(zhì)量得到很大提升”

    華東建筑設(shè)計(jì)研究總院

  • “我單位是一家總部位于丹麥的高科技企業(yè),和世聯(lián)翻譯第一次接觸,心中仍有著一定的猶豫,貴司專業(yè)的譯員與高水準(zhǔn)的服務(wù),得到了國(guó)外合作伙伴的認(rèn)可!”

    世萬(wàn)保制動(dòng)器(上海)有限公司

  • “我公司是一家荷蘭駐華分公司,主要致力于行為學(xué)研究軟件、儀器和集成系統(tǒng)的開發(fā)和銷售工作,所需翻譯的英文說(shuō)明書專業(yè)性強(qiáng),翻譯難度較大,貴司總能提供優(yōu)質(zhì)的服務(wù)。”

    諾達(dá)思(北京)信息技術(shù)有限責(zé)任公司

  • “為我司在東南亞地區(qū)的業(yè)務(wù)開拓提供小語(yǔ)種翻譯服務(wù)中,翻譯稿件格式美觀整潔,能最大程度的還原原文的樣式,同時(shí)翻譯質(zhì)量和速度也得到我司的肯定和好評(píng)!”

    上海大眾

  • “在此之前,我們公司和其他翻譯公司有過(guò)合作,但是翻譯質(zhì)量實(shí)在不敢恭維,所以當(dāng)我認(rèn)識(shí)劉穎潔以后,對(duì)她的專業(yè)性和貴公司翻譯的質(zhì)量非常滿意,隨即簽署了長(zhǎng)期合作合同!

    銀泰資源股份有限公司

  • “我行自2017年與世聯(lián)翻譯合作,合作過(guò)程中十分愉快。特別感謝Jasmine Liu, 態(tài)度熱情親切,有耐心,對(duì)我行提出的要求落實(shí)到位,體現(xiàn)了非常高的專業(yè)性!

    南洋商業(yè)銀行

  • “與我公司對(duì)接的世聯(lián)翻譯客服經(jīng)理,可以及時(shí)對(duì)我們的要求進(jìn)行反饋,也會(huì)盡量滿足我們臨時(shí)緊急的文件翻譯要求。熱情周到的服務(wù)給我們留下深刻印象!”

    黑龍江飛鶴乳業(yè)有限公司

  • “翻譯金融行業(yè)文件各式各樣版式復(fù)雜,試譯多家翻譯公司,后經(jīng)過(guò)比價(jià)、比服務(wù)、比質(zhì)量等流程下來(lái),最終敲定了世聯(lián)翻譯。非常感謝你們提供的優(yōu)質(zhì)服務(wù)!

    國(guó)金證券股份有限公司

  • “我司所需翻譯的資料專業(yè)性強(qiáng),涉及面廣,翻譯難度大,貴司總能提供優(yōu)質(zhì)的服務(wù)。在一次業(yè)主單位對(duì)完工資料質(zhì)量的抽查中,我司因?yàn)槎砦姆g質(zhì)量過(guò)關(guān)而受到了好評(píng)。”

    中辰匯通科技有限責(zé)任公司

  • “我司在2014年與貴公司建立合作關(guān)系,貴公司的翻譯服務(wù)質(zhì)量高、速度快、態(tài)度好,贏得了我司各部門的一致好評(píng)。貴司經(jīng)理工作認(rèn)真踏實(shí),特此致以誠(chéng)摯的感謝!”

    新華聯(lián)國(guó)際置地(馬來(lái)西亞)有限公司

  • “我們需要的翻譯人員,不論是筆譯還是口譯,都需要具有很強(qiáng)的專業(yè)性,貴公司的德文翻譯稿件和現(xiàn)場(chǎng)的同聲傳譯都得到了我公司和合作伙伴的充分肯定。”

    西馬遠(yuǎn)東醫(yī)療投資管理有限公司

  • “在這5年中,世聯(lián)翻譯公司人員對(duì)工作的認(rèn)真、負(fù)責(zé)、熱情、周到深深的打動(dòng)了我。不僅譯件質(zhì)量好,交稿時(shí)間及時(shí),還能在我司資金周轉(zhuǎn)緊張時(shí)給予體諒。”

    華潤(rùn)萬(wàn)東醫(yī)療裝備股份有限公司

  • “我公司與世聯(lián)翻譯一直保持著長(zhǎng)期合作關(guān)系,這家公司報(bào)價(jià)合理,質(zhì)量可靠,效率又高。他們翻譯的譯文發(fā)到國(guó)外公司,對(duì)方也很認(rèn)可。”

    北京世博達(dá)科技發(fā)展有限公司

  • “貴公司翻譯的譯文質(zhì)量很高,語(yǔ)言表達(dá)流暢、排版格式規(guī)范、專業(yè)術(shù)語(yǔ)翻譯到位、翻譯的速度非常快、后期服務(wù)熱情。我司翻譯了大量的專業(yè)文件,經(jīng)過(guò)長(zhǎng)久合作,名副其實(shí),值得信賴!

    北京塞特雷特科技有限公司

  • “針對(duì)我們農(nóng)業(yè)科研論文寫作要求,盡量尋找專業(yè)對(duì)口的專家為我提供翻譯服務(wù),最后又按照學(xué)術(shù)期刊的要求,提供潤(rùn)色原稿和相關(guān)的證明文件。非常感謝世聯(lián)翻譯公司!”

    中國(guó)農(nóng)科院

  • “世聯(lián)的客服經(jīng)理態(tài)度熱情親切,對(duì)我們提出的要求都落實(shí)到位,回答我們的問(wèn)題也非常有耐心。譯員十分專業(yè),工作盡職盡責(zé),獲得與其共事的公司總部同事們的一致高度認(rèn)可!

    格萊姆公司

  • “我公司與馬來(lái)西亞政府有相關(guān)業(yè)務(wù)往來(lái),急需翻譯項(xiàng)目報(bào)備材料。在經(jīng)過(guò)對(duì)各個(gè)翻譯公司的服務(wù)水平和質(zhì)量的權(quán)衡下,我們選擇了世聯(lián)翻譯公司。翻譯很成功,公司領(lǐng)導(dǎo)非常滿意!

    北京韜盛科技發(fā)展有限公司

  • “客服經(jīng)理能一貫熱情負(fù)責(zé)的完成每一次翻譯工作的組織及溝通。為客戶與譯員之間搭起順暢的溝通橋梁。能協(xié)助我方建立專業(yè)詞庫(kù),并向譯員準(zhǔn)確傳達(dá)落實(shí),準(zhǔn)確及高效的完成統(tǒng)一風(fēng)格!

    HEURTEY PETROCHEM法國(guó)赫銻石化

  • “貴公司與我社對(duì)翻譯項(xiàng)目進(jìn)行了幾次詳細(xì)的會(huì)談,期間公司負(fù)責(zé)人和廖小姐還親自來(lái)我社拜訪,對(duì)待工作熱情,專業(yè)度高,我們雙方達(dá)成了很好的共識(shí)。對(duì)貴公司的服務(wù)給予好評(píng)!”

    東華大學(xué)出版社

  • “非常感謝世聯(lián)翻譯!我們對(duì)此次緬甸語(yǔ)訪談翻譯項(xiàng)目非常滿意,世聯(lián)在充分了解我司項(xiàng)目的翻譯意圖情況下,即高效又保質(zhì)地完成了譯文!

    上海奧美廣告有限公司

  • “在合作過(guò)程中,世聯(lián)翻譯保質(zhì)、保量、及時(shí)的完成我們交給的翻譯工作?蛻艚(jīng)理工作積極,服務(wù)熱情、周到,能全面的了解客戶的需求,在此表示特別的感謝。”

    北京中唐電工程咨詢有限公司

  • “我們通過(guò)圖書翻譯項(xiàng)目與你們相識(shí)乃至建立友誼,你們報(bào)價(jià)合理、服務(wù)細(xì)致、翻譯質(zhì)量可靠。請(qǐng)?jiān)试S我們借此機(jī)會(huì)向你們表示衷心的感謝!”

    山東教育出版社

  • “很滿意世聯(lián)的翻譯質(zhì)量,交稿準(zhǔn)時(shí),中英互譯都比較好,措辭和句式結(jié)構(gòu)都比較地道,譯文忠實(shí)于原文。TNC是一家國(guó)際環(huán)保組織,發(fā)給我們美國(guó)總部的同事后,他們反應(yīng)也不錯(cuò)!

    TNC大自然保護(hù)協(xié)會(huì)

  • “原英國(guó)首相布萊爾來(lái)訪,需要非常專業(yè)的同聲傳譯服務(wù),因是第一次接觸,心中仍有著一定的猶豫,但是貴司專業(yè)的譯員與高水準(zhǔn)的服務(wù),給我們留下了非常深刻的印象!

    北京師范大學(xué)壹基金公益研究院

  • “在與世聯(lián)翻譯合作期間,世聯(lián)秉承著“上善若水、厚德載物”的文化理念,以上乘的品質(zhì)和質(zhì)量,信守對(duì)客戶的承諾,出色地完成了我公司交予的翻譯工作。”

    國(guó)科創(chuàng)新(北京)信息咨詢中心

  • “由于項(xiàng)目要求時(shí)間相當(dāng)緊湊,所以世聯(lián)在保證質(zhì)量的前提下,盡力按照時(shí)間完成任務(wù)。使我們?cè)谑啦⿻?huì)俄羅斯館日活動(dòng)中準(zhǔn)備充足,并受到一致好評(píng)!

    北京華國(guó)之窗咨詢有限公司

  • “貴公司針對(duì)客戶需要,挑選優(yōu)秀的譯員承接項(xiàng)目,翻譯過(guò)程客戶隨時(shí)查看中途稿,并且與客戶溝通術(shù)語(yǔ)方面的知識(shí),能夠更準(zhǔn)確的了解到客戶的需求,確保稿件高質(zhì)量!

    日工建機(jī)(北京)國(guó)際進(jìn)出口有限公司

15801211926

18017395793
點(diǎn)擊添加微信

無(wú)需轉(zhuǎn)接等回電

宝应县| 中阳县| 墨脱县| 鄱阳县| 从江县| 无为县| 鲁山县| 和田县| 浦东新区| 义乌市| 平陆县| 卢湾区| 洛浦县| 红桥区| 苏尼特右旗| 义乌市| 绍兴县| 新宾| 讷河市| 鄂尔多斯市| 台南市| 长岛县| 华亭县| 茂名市| 平和县| 嘉义县| 枝江市| 弥勒县| 三门峡市| 顺昌县| 子洲县| 青岛市| 盱眙县| 江口县| 宣城市| 卢氏县| 永善县| 金堂县| 福清市| 鸡东县| 宝山区|