1. 出版教材:
[1] 岑康 主編. 燃?xì)夤こ淌┕? 北京: 中國(guó)建筑工業(yè)出版社, 2022.1. (住房和城鄉(xiāng)建設(shè)部“十四五”規(guī)劃教材,四川省“十四五”普通高等教育本科規(guī)劃教材����,高等學(xué)校建筑環(huán)境與能源應(yīng)用工程專(zhuān)業(yè)推薦教材)ISBN: 978-7-112-26520-6
2. 近5年代表性論文:
[1] Kang Cen,Yanling Yang����,Xuan Zhu, et al. Comparative study for discharge coefficient in cryogenic liquid leakage process based on artificial intelligence model. International Journal of Green Energy,2025(2592056)(SCI)
[2] Kang Cen����,Yanling Yang,Yulong Duan, et al. Inhibition Characteristics of Methane/Air Explosions by Collaborative Inhibition Devices. Asia-Pacific Journal of Chemical Engineering,2025,20(6)(SCI)
[3] Kang Cen�����,Yanling Yang��,Shuo Wang. Investigation on the Synergy Effect of Water Mist and Porous Medium on the Gas Explosion under Different Equivalence Ratios. ACS Chemical Health & Safety:2025���,32(5):624-636(SCI)
[4] Kang Cen?, Wenxuan Li, Jun Jin, et al. Evaporation characteristics of single free-falling liquefied natural gas droplet under different ambient conditions based on the VOF method. Cryogenics, 2024, 8: 103928.(SCI)
[5] Kang Cen*�,Mengxin Li,Jun Jin, et al. Dynamic evaporation characteristics of liquefied natural gas droplets. Physics of Fluids, 36 (2024) 063345(SCI)
[6] Kang Cen, Linxi Su, Yunqiao Wen, et al. Stratification characteristics of hydrogen-blended natural gas for gas risers inside residential users[J]. International Journal of Green Energy, 2024, 1–17.(SCI/EI)
[7] Kang Cen�����,Yuan Wei�����,Minxue Dai, et al. Quantitative risk assessment of gas leakage and explosion in open kitchens and partitioned kitchens. Energy Sources, Part A: Recovery, Utilization, and Envirnmental Effects, 46 (2024) 6586-6605(SCI)
[8] Kang Cen?, Wang Yixi, Fan Wenqiang, et al. Experimental study on the flow characteristics during liquid nitrogen leakage[J]. EnergySources, Part A: Recovery, Utilization, and Environmental Effects, 2023, 45(2): 5142-5158. (SCI)
[9] Kang Cen?, Yiming Li, Lie Wei,, et al. Evaporation of single moving liquid nitrogen droplet: Experimental study and numerical simulation. International Journal of Heat and Mass Transfer, 201(2023)123584(SCI)
[10] Kang Cen? Minxue Dai, Xiayu Huang, et al. Effect of electrified surface casing on the interference characteristics of stray current generated by deep‐well anode beds.[J].Materials & Corrosion,2022����,74(5):734-746(SCI)
[11] Kang Cen Bin Song, Wenling Jiao*,et al. Quantitative risk assessment of gas leakage and explosion accidents and its security measures in open kitchens. Engineering Failure Analysis, 2021(9):105763(SCI)
[12] Yanling Yang,Kang Cen�,Hongfu Mi, et al. Influence of hydrogen blending ratio and ignition timing on trimethyl-phosphate-based suppression of hydrogen-blended natural gas explosions. Fuel 414 (2026) 138271(SCI)
[13] Yanling Yang,Kang Cen*�����,Yulong Duan, et al. Comparative experimental study on inhibition of hydrogen/methane/air explosion by water mist containing different additives. International Journal of Hydrogen Energy. 204 (2026) 153236(SCI)
[14] Cong Liu��,Youjun Ning����,Tian Dai��,Changjian Pu,Kang Cen*. Experimental and numerical investigations on the noise reduction performance and mechanism of the perforated sleeve in a natural gas station pressure reducing valve. Flow Measurement and Instrumentation 107 (2026) 103088(SCI)
[15] Bin Song��,Jiang Tian���,Wei Li�,Denglong Ma�,Hongxuan Hu,Kang Cen*. Novel Method for Optimizing Emergency Response Facility Layouts in Gas Pipeline Networks���,2025,16(4)(SCI)
[16] Yanling Yang�����,Kang Cen*�����,Mengxin Li, et al. Experimental study and correlation analysis of breakup characteristics of liquid nitrogen jets. Experimental Thermal and Fluid Science, 2025,164:111-443.(SCI)
[17] Bin Song , Jiang Tian , Yufan Deng , Kang Cen*.Gas dispersion and non-uniform explosion characteristics in large dining venues: numerical simulation and experimental validation. Simulation-transactions of The Society for Modeling and Simulation International,2025,101(7) (SCI)
[18] Bin Song, Jiang Tian, Kang Cen*, et al. Experimental Study on Explosion Characteristics and Consequences for Homogeneous and Inhomogeneous Methane-Air Mixtures within a Kitchen. Combustion Science and Technology,2025, VOL. 197, NO. 17, 5053–5078(SCI)
[19] Denglong Ma���,Mao, Weigao,Kang Cen. A Real-Time Multifactor Risk Monitoring Method for the Gas Pipeline Operation Process Based on Mix-Supervised Target Recognition. ACS Chemical Health & Safety����,2024��,31(3):259-267(SCI)
[20] Zhenhua Luo, Guangyao Yuan , Kang Cen*, et al. Evaluation of the oil-bearing drilling cuttings processing technology in petrochemical industry under cleaner production: A case study in China. Journal of Cleaner Production, 2022 (375), 134041(SCI)
[21] Wenwu Yang����,Xin Li�,Yuhan Tao,Kang Cen*, et al. Causal analysis of natural gas station pipelines vibration and reduction measures. Journal of Mechanical Science and Technology�����,2022,36(9):4409-4418(SCI)
[22] Denglong Ma����,Ruitao Wu,Zekang Li����,Kang Cen, et al. A new method to forecast multi-time scale load of natural gas based on augmentation data-machine learning model. Chinese Journal of Chemical Engineering,2022,48:166-175(SCI/CSCD)
[23] Lie Wei,Liang-ming Pan��,Hong-bo Liu�,Quan-yao Ren,Hui He�����,Kang Cen, et al. Assessment of wall heat flux partitioning model for two-phase CFD. Nuclear Engineering and Design,2022(390)111693(SCI)
[24] Jiao Wenling, Song Bin, Kang Cen, et al. Experimental and numerical study on explosion characteristics and hazards of methane-air mixtures in a chamber[J]. Energy Sources,2021,130:1-20. (SCI)
[25] Bin Song, Wenling Jiao*, Kang Cen*, et al. Quantitative risk assessment of gas leakage and explosion accident consequences inside residential buildings. Engineering Failure Analysis, 2021(122): 105257(SCI)
[26] Tao Han, Lei Wang, Kang Cen*, et al. Flow-induced noise analysis for natural gas manifolds using LES and FW-H hybrid method. Applied Acoustics, 2020, 159: 1-12(SCI)
[27] 岑康, 李夢(mèng)欣, 王泳龍, 等. 燃?xì)忾T(mén)站應(yīng)急物資配置研究[J]. 煤氣與熱力, 2025,45(01):22-29.
[28] 岑康, 蘇霖昕, 王泳龍, 等. 在役燃?xì)忾T(mén)站無(wú)人值守改造經(jīng)濟(jì)效益評(píng)價(jià)[J].煤氣與熱力, 2024, 44(5): B30-36.
[29] 岑康, 陳思宇, 陳開(kāi), 等. 超效率 SBM-Malmquist 模型在燃?xì)夤艿劳暾怨芾硇茉u(píng)價(jià)中的應(yīng)用. 安全與環(huán)境學(xué)報(bào), 2024,24(08):31446-3153.(CSCD)
[30] 岑康, 代敏雪, 張翰月, 等. 商業(yè)用戶(hù)燃?xì)獍踩[患特征及原因. 煤氣與熱力, 2023,43(08):30-35.
[31] 岑康, 魏源, 黎登輝, 等. 基于數(shù)理統(tǒng)計(jì)和文本挖掘的埋地鋼制燃?xì)夤艿朗Х治? 安全與環(huán)境學(xué)報(bào), 2023,24(04):1266-1274.(CSCD)
[32] 岑康, 溫韻巧, 李歡, 等. 小型商業(yè)暗廚房補(bǔ)風(fēng)措施優(yōu)化研究. 安全與環(huán)境工程, 2023,30(3) :78-89.(CSCD)
[33] 岑康, 溫韻巧, 魏星, 等. 天然氣輸氣站工藝管線(xiàn)流致振動(dòng)分析及控制研究. 振動(dòng)與沖擊, 2023, 42(16): 278-283.(CSCD)
[34] 岑康, 代敏雪, 黃夏雨, 等. 深井陽(yáng)極地床雜散電流干擾特征分析及數(shù)值模擬研究. 中國(guó)安全科學(xué)生產(chǎn)技術(shù), 2023, 19(5): 136-143.(CSCD)
[35] 岑康 徐浩然, 劉國(guó)慶, 等.開(kāi)放式廚房燃?xì)庑孤┍ǘ匡L(fēng)險(xiǎn)評(píng)價(jià). 安全與環(huán)境學(xué)報(bào), 2022,22(06):2933-2943.(CSCD)
[36] 岑康, 李歡, 王詠龍, 等. LNG加氣站工藝危害分析. 煤氣與熱力,2022,42(02):37-40.
[37] 岑康, 黃夏雨, 代敏雪, 等.強(qiáng)制電流陰極保護(hù)陽(yáng)極地床雜散電流干擾特性研究. 中國(guó)安全生產(chǎn)科學(xué)技術(shù), 2021(10): 140-146.(CSCD)
[38] 岑康, 任國(guó)強(qiáng), 等. 基于SIL評(píng)估的LNG加氣站安全儀表系統(tǒng)問(wèn)題分析及改進(jìn)建議. 中國(guó)安全生產(chǎn)科學(xué)技術(shù), 2021(12): 17-23.(CSCD)
[39] 岑康,范文強(qiáng)����,周莉, 等. 燃?xì)馐皆鰤簷C(jī)煙氣加熱三甘醇脫水再生工藝研究. 石油與天然氣化工, 2021, 50(5): 113-119.(CSCD)
[40] 岑康, 徐浩然, 等. 餐桌用氣場(chǎng)所燃?xì)獗ㄓ绊懸蛩胤治? 煤氣與熱力(錄用待刊)
[41] 岑康, 李歡�����,王泳龍, 等. LNG加氣站槽車(chē)卸車(chē)直供過(guò)程泄漏后果分析. 中國(guó)安全生產(chǎn)科學(xué)技術(shù), 2021, 17(4):77-84.(CSCD)
[42] 岑康�,鄧宇凡,劉丹, 等. 天然氣放空管地面爆燃點(diǎn)火裝置點(diǎn)火特性研究. 石油與天然氣化工, 2020, 49(6):117-124.(CSCD)
[43] 岑康, 張翌東, 黃夏雨. 考慮人因可靠性的安全儀表功能SIL驗(yàn)證方法研究. 中國(guó)安全生產(chǎn)科學(xué)技術(shù), 2020,16(3):31-36.(CSCD)
[44] 岑康, 劉丹. 天然氣管輸系統(tǒng)輸氣潛力分析及精細(xì)化管理研究[J]. 科技促進(jìn)發(fā)展, 2020, 16(6): 721-727.(CSCD)
[45] 金俊, 岑康, 李夢(mèng)欣, 等. 液化天然氣液滴群動(dòng)態(tài)擴(kuò)散蒸發(fā)特性研究[J/OL].安全與環(huán)境學(xué)報(bào),1-12.(CSCD)
[46] 趙春蘭, 鄭雯娟, 岑康, 等. 不同時(shí)間尺度的燃?xì)庳?fù)荷預(yù)測(cè)模型研究綜述[J/OL].西南石油大學(xué)學(xué)報(bào)(自然科學(xué)版), 1-18.
[47] 朱林, 羅筵疆, 黃思琪, 鐘赟, 唐桃, 岑康. 油氣鉆井現(xiàn)場(chǎng)工人不安全行為模式研究——基于文本挖掘視角[J].中國(guó)安全生產(chǎn)科學(xué)技術(shù), 2025, 21(01):146-152.(CSCD)
[48] 曹迪, 李欣, 邱小千, 李西璐, 羅振華, 張琴, 岑康*. 燃?xì)鈶?yīng)急搶險(xiǎn)值守點(diǎn)優(yōu)化選址研究[J]. 煤氣與熱力, 2025, 45(05): 40-46.
[49] 林芳澤, 路建國(guó), 李鵬程, 岑康, 等.堆載作用下埋地PE管道力學(xué)響應(yīng)過(guò)程模型試驗(yàn)研究[J/OL]. 土木與環(huán)境工程學(xué)報(bào)(中英文). 2024.(CSCD)
[50] 梁海濱, 陳開(kāi), 雷光祥, 朱林, 岑康. 城鎮(zhèn)燃?xì)夤艿劳暾怨芾砦墨I(xiàn)計(jì)量研究[J].煤氣與熱力, 2023,43(12):28-33+38.
[51] 李屹, 趙春蘭, 屈瑤, 何婷, 岑康. 基于多維動(dòng)態(tài)隸屬度的模糊時(shí)間序列的天然氣月負(fù)荷預(yù)測(cè)[J].模糊系統(tǒng)與數(shù)學(xué), 2023, 37(02):134-143.
[52] 張羽, 任昱僑, 岑康. 新冠疫情背景下建筑從業(yè)人員統(tǒng)計(jì)生命價(jià)值研究[J].中國(guó)安全生產(chǎn)科學(xué)技術(shù), 2023,19(02):41-46.(CSCD)
[53] 何靜, 劉宏波, 魏列, 岑康. 車(chē)載儲(chǔ)氫瓶泄漏及車(chē)庫(kù)內(nèi)通風(fēng)方式研究[J].中國(guó)安全生產(chǎn)科學(xué)技術(shù),2022,18(09):181-188.
[54] 張羽, 劉偉, 譙麗, 岑康. 極端損失條件下分組群體的主觀(guān)概率累積偏差仿真研究[J].運(yùn)籌與管理, 2022,31(07):207-212.(CSCD)
[55] 王一茜, 岑康, 蘇霖昕, 等. 聚乙烯燃?xì)夤懿臒釅豪匣匦匝芯? 煤氣與熱力, 2021, 41(4): B27-B33.
[56] 張羽, 譙麗, 岑康. 死亡悖論視角下群體性主觀(guān)概率偏差仿真研究[J].中國(guó)安全科學(xué)學(xué)報(bào), 2021,31(06):37-43.(CSCD)
[57] 張鵬, 岑康. BIM在供熱工程教學(xué)中的應(yīng)用[J].高教學(xué)刊,2020,(23):93-95.
[58] 彭善碧, 侯向秦, 吳曉南, 岑康.城市燃?xì)夥较颉皠?wù)實(shí)就虛”生產(chǎn)實(shí)習(xí)新模式探索[J].智庫(kù)時(shí)代, 2020,(01):170-171.
3. 近5年授權(quán)發(fā)明專(zhuān)利:
[1] 岑康�,龔子寒,蘇霖欣�����,等. 一種減弱立管頂端摻氫天然氣分層影響的裝置.2023.10�����,ZL 202311410232.X(發(fā)明專(zhuān)利)
[2] 岑康�,李一鳴,范文強(qiáng)�����,等. 一種低溫危險(xiǎn)介質(zhì)液滴生成、液滴群蒸發(fā)模擬的實(shí)驗(yàn)裝置. 2022.2�,ZL202110162873.2(發(fā)明專(zhuān)利)
[3] 岑康,范文強(qiáng)��,李一鳴�����,等. 一種低溫危險(xiǎn)液體事故泄漏射流實(shí)驗(yàn)裝置. 2022.3����,ZL202110162876.6(發(fā)明專(zhuān)利)
[4] 岑康,范文強(qiáng)����,等. 一種增壓脫水站用三甘醇再生裝置. 2021.10,ZL202110710925.5(發(fā)明專(zhuān)利)
[5] 岑康��,鄭昕�����,姚婷����,等.一種頁(yè)巖氣田井組劃分三級(jí)優(yōu)化方法.2020.7�,ZL201610414003.9(發(fā)明專(zhuān)利)
[6] 岑康, 金俊, 杜佳瑤,等. 一種低溫環(huán)境氣體濃度可調(diào)的液滴蒸發(fā)實(shí)驗(yàn)裝置.2024.10 ZL202411006207.X (發(fā)明專(zhuān)利)
[7] 李薇����,袁崇理,岑康�,等.一種城鎮(zhèn)燃?xì)夤芫W(wǎng)泄漏事故主動(dòng)受控放散時(shí)長(zhǎng)計(jì)算方法.2025.10����,ZL202511133984.5(發(fā)明專(zhuān)利)
[8] 宋斌,岑康���,田江���,等. 一種城鎮(zhèn)燃?xì)鈶?yīng)急搶險(xiǎn)方案智能推薦方法.2025.9,ZL202510843873.7(發(fā)明專(zhuān)利)
[9] 李薇, 田江, 岑康�����,等. 一種城鎮(zhèn)燃?xì)鈶?yīng)急搶險(xiǎn)值守點(diǎn)優(yōu)化布局方法, ZL 202410109944.6.(發(fā)明專(zhuān)利)
[10] 李薇, 羅惠陽(yáng), 岑康���,等. 基于高斯-元胞自動(dòng)機(jī)模型的天然氣泄漏擴(kuò)散預(yù)測(cè)方法, ZL 2024104997453.3. (發(fā)明專(zhuān)利)
[11] 陳諍��,路建國(guó)��,岑康�����,等. 一種具有隔熱結(jié)構(gòu)的寒區(qū)油氣輸送管道.2024.7�,ZL202421768253.9(實(shí)用新型)
[12] 孫彬強(qiáng),路建國(guó)�,岑康,等. 一種抗凍脹的寒區(qū)埋地油氣輸送管道.2024.7�����,ZL202421670192.2(實(shí)用新型)
[13] 陳諍���,厚蘇偉��,路建國(guó)���,孫彬強(qiáng),王小平����,岑康����,等. 壓力管道泄漏應(yīng)急封堵裝置及快速部署方法.2024.08�,ZL202411081980.2(發(fā)明專(zhuān)利)
[14] 孫彬強(qiáng),王小平�,路建國(guó),岑康�,等. 一種寒區(qū)埋地輸油管道的防凍融變形結(jié)構(gòu)及其施工方法.2024.7,ZL202410945365.5(發(fā)明專(zhuān)利)
[15] 陳諍�����,程建通��,路建國(guó)�����,岑康���,等. 一種模擬寒區(qū)埋地輸油管道泄漏的系統(tǒng).2024.7,ZL 202410945367.4(發(fā)明專(zhuān)利)
[16] 熊俊楠�,陳文杰,岑康��,等. 一種基于Cesium的燃?xì)鈭?chǎng)站泄漏模擬可視化方法.2024.1,ZL 202410106386.8(發(fā)明專(zhuān)利)
[17] 王書(shū)亮�,陳瑞鴻,岑康��,等. 一種模擬雜散電流對(duì)土壤中金屬構(gòu)筑物的腐蝕實(shí)驗(yàn)裝置.2022.6�����,ZL 202221483335.X(實(shí)用新型)
4. 代表性計(jì)算機(jī)軟件著作權(quán):
[1] 岑康�,涂昆.儲(chǔ)氣庫(kù)壓縮機(jī)系統(tǒng)預(yù)防性維修任務(wù)管理軟件.計(jì)算機(jī)軟件著作權(quán)(2015SR018430)
[2] 岑康,常學(xué)平��,王兵.鋼質(zhì)管道體積型缺陷剩余強(qiáng)度評(píng)價(jià)軟件.計(jì)算機(jī)軟件著作權(quán)(2015SR012706)
[3] 岑康�,常學(xué)平,王兵.鋼質(zhì)管道裂紋型缺陷剩余強(qiáng)度評(píng)價(jià)軟件.計(jì)算機(jī)軟件著作權(quán)(2015SR167320)
[4] 岑康���,涂昆����,等.安全儀表系統(tǒng)安全完整性等級(jí)驗(yàn)證計(jì)算軟件.計(jì)算機(jī)軟件著作權(quán)(2015SR179580)
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