Tandem Shell & Tube Heat Exchanger with High Temperature Cross and Large Heat Duty Featuring U-Tube Bundle

Menşe yeri: Çin
Marka adı: YUHONG
Sertifika: ASME, ABS, DNV-GL , BV, LR , KR, CCS, PED, TUV, ISO9001, AD2000
Model numarası: Tandem Kabuk ve Boru
Min sipariş miktarı: 1 adet
Fiyat: NEGOCIATED
Ambalaj bilgileri: DEMİR ÇERÇEVE + KONTRPLAK KASA VEYA DOKUMA ÇANTA
Teslim süresi: 20-80 gün
Ödeme koşulları: T/T,L/C
Yetenek temini: 500 Ton
Şimdi Sorgula
Bir alıntı yap.
Özellikler
Yapılandırma:
Seri bağlı kabuk ve boru düzenlemesi (tandem tasarım)
Tüp demeti:
Çıkarılabilir U boru veya düz boru demetleri
Akış düzenlemesi:
Optimize edilmiş seri akışı
İnşaat Standardı:
ASME/TEMA uyumlu
Sıcaklık düzeltme faktörü:
FT ≥ 0,75
Isıl görev kapasitesi:
Ölçeklenebilir - büyük görev gereksinimlerini karşılamak için kabuk ekleyin
Ürün Tanımı

Tandem Shell & Tube Heat Exchanger | Series-Connected Multi-Shell Design for High Temperature Cross & Large Heat Duty | U-Tube Bundle & Finned Tube Options Available

Product Description

Yuhong Group: Complete Heat Exchanger Solutions – From Single Shells to Series-Connected Systems

Yuhong Group Co., Ltd. designs and manufactures a comprehensive range of thermal equipment for global industries. Our core offerings include shell and tube heat exchangers, pressure vessels, air coolers, and specialized tandem (series-connected) heat exchanger systems. We also supply every critical component: finned tube bundles, U-tube bundles, heat exchanger tubesheets, and all associated parts for new projects and maintenance.

Product Focus: Tandem Shell & Tube Heat Exchanger – Engineered for Demanding Thermal Duty

A tandem shell & tube heat exchanger refers to a configuration where two or more shell-and-tube heat exchanger units are connected in series, either within a single combined shell or as separate units linked by piping. This arrangement is employed when a single shell cannot meet the required heat duty, temperature correction factor, or capacity targets.

Based on the attached photographs, this system exhibits:

  • Configuration: Series-connected shell-and-tube arrangement (tandem design)
  • Tube bundle: Removable U-tube or straight-tube bundles for easy maintenance
  • Flow arrangement: Optimized series flow for enhanced thermal performance
  • Construction: ASME/TEMA compliant, suitable for high-temperature differential and large heat duty service

Why Tandem / Series-Connected Design? – Key Advantages

Feature Tandem / Series-Connected Single Shell & Tube
Temperature correction factor (FT) Can achieve FT ≥ 0.75 across wide operating ranges Often limited; may drop below 0.75, indicating inefficient use of heat transfer area
Heat duty capacity Scalable – add shells to meet large duty requirements Limited by single shell physical size
Temperature cross capability Achievable with series counter-current arrangement Difficult with single shell
Thermal expansion management Each shell handles its own ΔT; U-tube bundles accommodate expansion Requires expansion joint or floating head for large ΔT
Pressure drop utilization Can fully utilize available pressure drop across multiple shells May be underutilized with single shell
Maintenance flexibility Individual shells can be isolated for maintenance Whole unit must be shut down

When to Specify a Tandem / Series-Connected Heat Exchanger:

  • Large total heat duty – exceeding the practical limit of a single shell
  • Temperature correction factor (FT) < 0.75 – indicating inefficient use of heat transfer area in a single-shell design
  • Temperature cross required – where the hot fluid outlet temperature must be lower than the cold fluid outlet
  • High pressure drop available – multiple shells in series allow full utilization of available pressure drop
  • Space constraints – series-connected shells can be arranged vertically or in compact layouts to minimize footprint

Key Components & Their Functions in a Tandem Heat Exchanger System

Component Typical Material Role in Equipment Performance
U-Tube Bundle Carbon steel, stainless steel, or alloy Carries tube-side fluid; U-bend allows free thermal expansion – critical when ΔT varies between shells
Finned Tube Bundle (optional) Tube + aluminum/SS fins Increases heat transfer surface area – ideal for gas cooling or where enhanced performance is needed
Heat Exchanger Tubesheet SA266 Gr.2, F304/316L, or alloy Anchors tubes at each shell; separates shell and tube sides
Shell Carbon steel or stainless steel Contains shell-side fluid; each shell in the series handles a portion of the total duty
Interconnecting Piping Carbon steel or alloy Links successive shells; allows fluid to pass from one shell to the next
Channel / Bonnet Carbon steel or stainless steel Distributes fluid to the tube bundle; removable for access

Technical Highlights of Our Tandem Heat Exchanger System

  • Series flow optimization: Multiple shells connected in series allow true counter-current flow across the entire system, maximizing the log mean temperature difference (LMTD) and achieving temperature crosses not possible with single-shell designs.
  • Scalable heat duty: By adding shells in series, the total heat transfer area can be increased incrementally to meet any required duty – from moderate to very large.
  • Improved temperature correction factor: Series-connected shells can achieve FT values ≥ 0.75 across a wide range of operating conditions, ensuring efficient use of heat transfer area.
  • Flexible maintenance: Each shell in the series can be isolated, allowing maintenance or inspection of one unit while others remain in service – reducing overall downtime.
  • U-tube bundle in each shell: U-bend design accommodates differential thermal expansion within each shell, eliminating the need for expensive expansion joints.

Knowledge Module: Tandem / Series-Connected vs. Parallel – Which Arrangement to Choose?

Operating Requirement Recommended Arrangement Rationale
Large heat duty, single fluid stream Series (tandem) Fluid passes through successive shells, gaining incremental heat transfer
Multiple fluid streams, same duty Parallel Each stream passes through its own shell simultaneously
Temperature cross required Series (counter-current) Enables hot fluid outlet below cold fluid outlet
FT correction factor < 0.75 Series (multiple shells) Improves FT to ≥ 0.75, reducing required area
Pressure drop constraint Series or parallel Series increases pressure drop; parallel splits flow and reduces pressure drop

Knowledge Module: Common Applications for Tandem Shell & Tube Heat Exchangers

Industry Application Why Tandem / Series
Petrochemical / Refining Crude preheat trains, feed/effluent exchangers Multiple shells in series achieve required temperature rise across preheat train
Ammonia / Methanol synthesis Reactor effluent cooling Successive heat exchange steps – first with feed gas, then with steam
Power generation Feedwater heating trains Series-connected heaters raise feedwater temperature incrementally
Chemical processing High-temperature synthesis cooling Two-stage cooling – first stage recovers high-grade heat, second stage uses lower-temperature utility
LNG / Cryogenic Multi-stage heat exchange Series arrangement handles large temperature spans from ambient to cryogenic

Component-Only Supply – We Also Provide for Maintenance & Spares

If your existing tandem heat exchanger system needs replacement parts, we supply individual components without ordering a complete new system:

  • U-tube bundles – direct replacement for existing shells – built to your drawing
  • Finned tube bundles – for enhanced performance or retrofits
  • Heat exchanger tubes – carbon steel, stainless steel, alloy – cut to length, bent, and end-prepared
  • Heat exchanger tubesheet – drilled and grooved per your pattern
  • Shell sections, channel covers, flanges – any material and facing type
  • Interconnecting piping – custom-fabricated to link successive shells

How to Specify a Tandem Heat Exchanger System Correctly

To avoid mismatches, we need the following information:

  1. Total heat duty required – overall Q (kW or BTU/hr)
  2. Inlet and outlet temperatures – both hot and cold streams
  3. Available pressure drop – across the entire system and per shell
  4. Number of shells in series – or we can calculate the optimum number
  5. Fluid properties – fouling tendency, corrosivity, viscosity
  6. Preferred tube material – carbon steel, stainless steel, alloy

Common Errors to Avoid:

  • Incorrect number of shells – too few shells results in FT < 0.75 and oversized individual shells; too many shells increases cost and pressure drop unnecessarily
  • Wrong flow arrangement – series vs. parallel misidentification leads to incorrect thermal performance
  • Underestimating pressure drop – series connection increases total pressure drop; must be within allowable limits
  • Missing thermal expansion consideration – each shell must accommodate its own ΔT; U-tube bundles are recommended for large differentials

Quality Assurance & Documentation

Every tandem heat exchanger system we fabricate includes:

  • ASME Code compliance – per ASME Section VIII, Division 1
  • TEMA standards – design, fabrication, and inspection per TEMA requirements
  • Material Test Certificates (MTC) per EN 10204 3.1 – full traceability
  • NDE reports – RT, UT, MT, PT as required
  • Hydrostatic test report – each shell individually tested
  • PMI (Positive Material Identification) – available on request
  • Third-party inspection (SGS, BV, TÜV) – at buyer’s request

Get a Quotation for Your Tandem Heat Exchanger System

To quote a series-connected shell & tube heat exchanger system like the one in your photographs, send the following to jimmy@steelseamlesspipe.com:

  • Process data sheet (flow rates, inlet/outlet temperatures, pressures)
  • Fluid composition (corrosivity, fouling tendency)
  • Number of shells required (or let us calculate the optimum)
  • Tube material preference
  • Code compliance required (ASME, TEMA)

Our engineers will respond with a technical proposal, system arrangement drawing, and competitive price – typically within 72 hours.

Tandem Shell & Tube Heat Exchanger with High Temperature Cross and Large Heat Duty Featuring U-Tube Bundle 0

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Tüm Yorumlar
M
Mateo Rossi ...den Argentina
Jan 21.2026
In our industry, downtime is a killer. This exchanger has been low-maintenance and highly reliable for our biodiesel flow. The ASME certification gives our insurance team peace of mind.
N
Nguyen Van Nam ...den Vietnam
Oct 18.2025
Fast delivery and easy install. We scaled up our fertilizer plant and needed a quick turnaround. The lead time was better than expected. Flange alignments were perfect, which made the onsite installation very straightforward.
I
Imran ...den Pakistan
Oct 17.2025
The ASME VIII-1 certification gave us confidence in the design, and the SA516 Gr485 shell thickness was verified upon arrival—it matched the datasheet exactly. What really stood out was the after-sales support; when we had questions about the gasket specifications during installation, the technical team responded within hours via WhatsApp. The unit has been running 24/7 for two months now, handling our solvent recovery process efficiently.
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