1 冷藏油的重復和數據分布 | 2 冷藏油與制熱劑的水解優點 |
3 冰箱程序功效的在測量及求算 | 4 縮減機效果的預估及算起 |
5 與微凍油一些注意力點 | 6 制泠滑潤油筒介 |
7 潤滑情況油對程序功效的反應 | 8 較常溫空氣能熱水器變頻空調軸承汽車潤滑油油的開發 |
1. 冷凍油的循環和分布
壓縮機的殘油量與OCR關系
系統油量分布/OCR圖解估算方法
(1)轉速比越高,OCR越大,縮短機殘發動機轉速較少;(2)總發動機轉速增多,OCR變大;
2. 冷凍油與制冷劑的溶解特性
3. 空調器性能測量裝置
空調器性能計算
冷熱水機組性能測量裝置
冷凍油對系統性能的影響
空調系統與壓縮機性能差異分析
4. 壓縮機性能測試裝置
壓縮機性能計算
油與制冷劑混合物
油循環對量熱器的影響
OCR對壓縮機性能的影響
5. 系統回油設計注意點
潤滑不良
冷凍油的劣化
6 制冷潤滑油簡介
潤滑油組成
潤滑油組成 - 基礎油 Base Oil
潤滑油組成 – 添加劑 Additives
制冷潤滑油的特殊性
Why is refrigeration lubricant special?
? 制泠劑不能預防地和防銹液油結合,然后的影響防銹液油的特征 ? Refrigerant dissolves in lube and change its properties.
? 全封閉體統:? Closed system:
? 不改油 ? Oil serves for life time
? 受環保關系小 ? Less affected by ambient
? 體溫、壓強的變化規模不小 ? Significant temperature and pressure change ? 規定工程環境下,系統有高溫環境高壓變壓器和較低溫度 低壓證書一些 ? high T/P and low T/P in one system ? 的不同自然環境標準下,工程發生改變大? Working condition changes with ambient temperature and application ? 各不相同致冷劑材質各不相同、軟件不類似 ? Different refrigerant has different properties and application.
制冰加脂油選定 需要考慮的常見重要因素Criteria for Refrigeration Lubricant Selection
? 好的做工作粘合度:潤滑劑和回油? Working Viscosity: lubricity & oil return ? 好的相無水磷酸氫:回油和性能指標? Miscibility: oil return & efficiency ? 電隔絕能:安全可靠性? Dielectric: Safety ? 維持性:常期穩定準確性? Stability: Durability ? 素材兼容模式:長久的牢靠性? Compatibility: Durability ? 熱傳導的耐磨性、比熱容等其他的耐磨性? Others: Thermal conductivity, specific heat, et. al
制冷劑和潤滑油的主要物性對比
Comparison of physical properties of refrigerants and lubricants
? 飽合水蒸汽壓:文化差異十分大,>3數目數率? Vapor Pressure: >3 orders of magnitude
? 粘稠度:距離是非常大,2~4數目數率? Viscosity: 2~4 orders of magnitude
? 密度單位:同一時間總數量級? Density: same order of magnitude
? 導熱性數值:同樣使用量級? Thermal Conductivity: same order
? 比熱:一致規模級? Specific Heat: same order
? 外壁漲力:研磨油相對大? Surface tension: Lube is higher
溫度、壓力對溶解度及粘度的影響
T&P Effect on Solubility and Viscosity
? 空調制熱劑的溶于會有很大程度的減少混合法物凝固點Dilution of refrigerant reduces the viscosity of lubricant significantly.
? 恒溫器要求下,工作壓力增強,制冷空調劑溶水度增強At constant temperature, refrigerantsolubility increases as pressure.
溫度、壓力對溶解度及粘度的影響
T&P Effect on Solubility and Viscosity
? 空調管路的充分均勻溶解會有很大的降底比調物效果Dilution of refrigerant reduces the viscosity of lubricant significantly.
? 衡溫狀態下,氣壓提升,冷庫安裝小編劑溶水度增長At constant temperature, refrigerant solubility increases as pressure.
? 恒壓必備條件下,的溫度變高,致冷劑溶于度變低At constant pressure, refrigerant solubility decreases as temperature.
溫度、壓力對溶解度及粘度的影響
T&P Effect on Solubility and Viscosity
? 安真小編劑的融掉會大大的削減搭配物用戶粘度
? 恒溫性比較好具體條件下,各種壓力增大,制冰劑可溶性高,溶于水的度增多
? 恒壓具體條件下,的溫度增高,制冷機組劑融化度調低
? 恒壓前提下,溫差上升,相混物效果先不斷增加后拉低At constant pressure, as temperature rises, mixture viscosity goes up quickly first and then goes down slowly
7.潤滑油對系統性能的影響
Lubricant Effect on Performance of Refrigeration System
潤滑油對壓縮機的影響
Effect on Compressor
? 潤滑液:縮小到變形? Lubrication: reduce wearing
? 足夠的的動力粘稠度:體溫、負荷、空調冷劑對油動力粘稠度的印象? Enough viscosity: T, P and Refrigerant affects viscosity
? 泵油:構成設定、注發動機轉速、裝置回油? Oil supply: Design, Oil charge, Oil return
? 合適的的獲取劑 ?Additives
? 冷去 ? Cooling
? 油的換熱功效 ? Heat transfer
? 油的還是流動性 ? Flowability
? 密封帶 ? Sealing:
? 滿足的粘性? Enough viscosity
潤滑油對壓縮機的影響
Effect on Compressor
? 通常工作:隨OCR增強? Stable running condition: as OCR increases
? 體積的效率先增添后降:良好的密封性變好、 高效吸氣體積減掉、排氣管出入空氣阻力增添? Volumetric efficiency goes up first and then down: Better sealing, effective suction volume reduces, flow resistance on discharge increases ? 空調制制熱量及COP先延長后降? Capacity and COP goes up first and then down. ? 進氣的溫度下降 ? Discharge temperature goes down. ? 適宜的油不斷循環率才可確認縮小機的耐腐蝕性最優化? Appropriate OCR can ensure optimal compressor performance.
潤滑油對壓縮機的影響
Effect on Compressor
? 開啟:? Start up
? 冷熱水循壞受到制冰劑知識,將促使? Temperature change could cause refrigerant migration and compressor to run out of oil.
? 隨著冷煤降解到油中蒸汽壓會減少, 體溫相同之處狀況下,設備劑取向于往油壓機縮機缺油多的平臺傳遞。? Refrigerant tends to transfer to the position with high oil content due to the dissolving of refrigerant reduces vapor pressure.
? 注油油將會被明顯希釋,107硅橡膠粘度大削減 -> 注油存在問題? Oil might be diluted significantly and end with wearing issue. ? 液面高,油巡環率增高? Oil expands and OCR increases.
潤滑油對換熱器傳熱的影響
Effect on Heat Transferring
? 汽化器
? 水準管進出燃燒熱傳遞:中低干度下,熱傳遞因子隨OCR新增而新增;高干度下,先新增、后降低。同一等等方面,新增外表表面張力,提升延伸性,提升玩占地面,新增發泡點,熱傳遞提升;另同一等等方面,根據107硅橡膠粘度新增,熱傳遞減小。
? 油亮管:低干度下,核態煮沸遵循,入駐防銹水油改弱了兩相流的傳熱;高干度下,入駐防銹水油,導致泡沫板后更非常容易導致環狀流,最終得以不斷增強傳熱;肋片管:煙囪效應傳熱遵循,入駐防銹水油對傳熱導致很小,且有和油亮管相反的的大趨勢。
? 工作式家居室內空調中,熱導率先有效的減小后不斷增強。
? 板換量減小或增大;板換因子大大減少
? 蒸汽加熱器
? 消費黏性上升,對對流換熱系數氣液分離器有負面影響療效,但鑒于露點溫濕度上升,必然方面上體現了補充用途
? 分體式式家庭用的冰箱中傳熱系數增多
對制冷劑分配的影響 - 蒸發器
Effect on Refrigerant Distribution - Evaporator
? 化掉器填報志愿系統為液固兩相,很容易分液欠勻The inlet of evaporator is two phases, maldistribution occurs easily.
? 的不同組成的熱交換器,反應不似的Different design has different oil effect.
潤滑油對制冷劑分配的影響 -冷凝器
Effect on Refrigerant Distribution - Condenser
? 總的接下,空氣冷卻側溫度因素高,油外流性好Temperature is high, good oil flowability
? 冷卻水器德國,通常上基本都是甲烷氣體, 有益于一致劃分Mostly vapor, easier for distribution
? 盡管這些,仍有左右不均勻Maldistribution still happens
增加OCR對制冷量的影響
Effect of Increasing OCR on Capacity
? 加劇OCR,大多數現狀下制熱量縮減Capacity decreases most of the time.
? 中速:OCR從1%新增至8%,制泠劑量減小6%;高速度:OCR從1%新增到10.6%,制泠劑量減弱13.5%。
? OCR從3%降下去0.5%,出風熱度減少0.8-1.7°C。
? OCR從8-9%降成2-2.6%,制熱量升高8-11%,出風攝氏度因素大幅度降低了3-4°C,車上攝氏度因素大幅度降低了2-3°C。
? 都有某個通訊報道隨OCR曾加,致空調功率先小幅度身高后再減低的。
增加OCR對COP的影響
Effect of Increasing OCR on COP
? 新增OCR,COP先新增后增大COP increases first then decreases.
? 低速度:最適宜COP分屬OCR為2.6%;迅速:最適宜COP分屬OCR為2.0% 。
? 壓縮機最適的COP相應OCR 為3. 83%;電輔熱最適的COP 相應OCR 為3. 59%。
潤滑油對系統可能造成的影響
Possible Lube Effect on System
? 進行制冷機:準確性、功效? Compressor: Durability, Efficiency
? 揮發/冷凝水攝氏度因素/的壓力:結合物泡點攝氏度因素少于純制泠劑熔點,變板換溫度差.? Evaporation/condensation T/P: Mixture bubble point is higher than pure refrigerant boiling point. Reduce temperature difference at evaporator.
? 傳熱彈性系數:蒸餾器和冷凝水器影響力不相同,不同的學習的答案不保持一致? Heat transfer coefficient: Different impact on evaporator and condenser. Inconsistent conclusion in literature.
? 壓降:不斷地傳熱器、吸進氣內部管道壓降->增添能耗、大于質量水平視頻流量? Pressure drop: Increase pressure drop across heat exchanger, suction and discharge line. Increase power consumption and decrease mass flow.
潤滑油對系統可能造成的影響
Possible Lube Effect on System
? 空調制熱劑管理:和熱交換器成分有關的,有變 好的狀態,都是受損的狀態 ? Refrigerant distribution: Depending on design, could get better or worse. ? 安真小編劑出入庫蒸餾掉器的比焓差:縮小到 – 油 不供應安真小編量;位置安真小編劑可溶性高,溶于水的在油中不蒸餾掉;油想要被蒸發,使用量一位置冷 量 ? Reduce specific enthalpy difference in evaporator: Oil does not provide cooling capacity; Dissolved refrigerant could not evaporate; The oil needs to be cooled. ? 空調制熱劑熱度:空調制熱劑+油的總熱度將會增大,但空調制熱劑熱度減掉? Refrigerant mass flow: Total flow of ref and oil could go up, flow rate ref. only goes down. ? 絕大多數現象下,防銹液油都對壓縮的機本身的這部分就是提供負面危害危害? For most of situations, adding lubricant to the system other than compressor will deteriorate system performance.
8. 電動三輪二手車非常溫度空氣能熱水器壓縮的機潤滑液油
Lubricant for Electrical Vehicle Super Low Temperature Heat Pump
低溫熱泵面臨的挑戰
? 回油:? 的溫度更低 -> 研磨油粘合度減少? 室溫減小 -> 油/空調制冷劑互可溶沒有那么好? 抗磨:? 壓值減少,磨蹭負擔提升
超低溫壓縮機潤滑油
超低溫壓縮機潤滑油: R134a相溶性
ZEROL ESTER 68Hybrid 在-15℃左右和 R134a即會產生渾濁分層現象,無法適應熱泵低溫回油的要求
RM 68EX和R134a的互溶性可達-24℃以下
總結 Summary
? 制冰軸承機械潤滑油油的的選擇要多方面注意安全穩判定、相關材料性能、制冰劑互可溶、及適宜的運轉粘度指數。? Choosing lubricant for refrigeration system should fully consider stability, compatibility, miscibility, and suitable working viscosity. ? 制冷空調劑和濕潤油的物性有有很大不同之處,十分是用戶粘度和表現飽和狀態液體壓,其混合型喂養物物性表流露出具有的優缺點。? The physical properties of lubricants, especially vapor pressure and viscosity, differentiate from refrigerants significantly. Mixture properties may exhibit unique features. ? 光滑油對擠壓機的影向力和控制系統的影向力不那樣。光滑油的簡化能能確保擠壓機的準確性和加強擠壓機的性能。? Lubricants have different effects on compressor and the rest of system. Optimization of lubricants can improve compressor efficiency and durability. ? 對減小機范圍內的裝置中以外的別的區域,進行潤滑系統處理油的來源于大多時候下是減小裝置性的;各別時候下,進行潤滑系統處理油的某個功能,就比如起泡、外面力值等,幾率發揮發展性的使用。? For most of situations, adding lubricant to the rest of the system will deteriorate system performance. On some occasions, lubricants may improve system performance due to developing foam, higher surface tension et. al.
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